SPITZLI'S MMlffi AND AN ILLUSTRATED CATALOGUE OF Instruments, Accessories, Stationery and Books FOR Managers, Designers, Weavers, and all Others in any way connected with the MANUFACTURE OF TEXTILE FABRICS. SECOND EDITION. ^x\ ^!Jong^> L881 OF w* WEST TROY, N. Y., U. S. A.: A. & A. F. SPITZLI, PUBLISHERS. MjMa A MANUAL FOR MANAGERS, DESIGNERS, WEAVERS, AND ALL OTHERS CONNECTED WITH THE MANUFACTURE OF TEXTILE FABRICS, CONTAINING DEFINITIONS, DERIVATIONS! EXPLANATIONS OF TECHNICAL TERMS, THE USE MSDE OF MANY SUBSTANCES ; Rules, Tables, and some Elementary Instructions for Beginners. by ALFRED SPITZLI. \ ' 1118! WEST TROY, N. Y., U. S. A. : N. A. & A. F. SPITZLI, PUBLISHERS. * V? Entered according to Act of Congress, in the year 1881, by ALFRED and A D O L. P H U S FERDINAND SPITZL1, In the Office of the Librarian of Congress. Washington, D. C. Wm. H. Young, STATIONER, TROY, N. Y. PRICES, POST PAID. IN NEAT PAPER COVERS. Catalogue of Instruments, Books, &c, &c, - % .30 Catalogue and Manual, - 1.00 IN EI EG ANT CIOTH BINDING. Catalogue and Manual, - - 2.00 Manual only, (no Advertisements), - 2.00 In Advance. NOTE The plan of this work necessarily involves the mention of many business names, but its whole value obviously depends upon the entirely disinterested character of that mention. The publish- ers therefore wish it to be distinctly understood that no considera- tion of any kind has governed the description or notice of places of business of manufacturers in this work, except the single purpose of giving the reader trustworthy information. Advertisements ap- pear in their proper place as advertisements, but nothing in the body of the work has been influenced by these advertisements, nor is a mention in any instance an advertisement in disguise. PREFACE. One of the greatest needs of the Textile Interest in the line of books is that of a thorough and exhaustive Lexicon, which is not encumbered with details of other manufactures. The preparation of such a work is a stupendous undertaking, one for which a life- time is too short, unless it can be accomplished by aid of many works which have gone before. To supply a work which will render some such aid, and in the meantime furnish information needed by all connected with the interest, in a form so convenient that it may be resorted to whenever the memory fails to supply a fact with sufficient promptness, is the object of the author. There has been no effort to introduce new theories; on the con- trary, the aim has rather been to furnish the best authenticated facts. While the result is in many parts so unsatisfactory that the author hopes to be able at some time in the near future to revise and enlarge the work, it will be found that space has been made for a more full discussion of the important subjects, by confining others to a simple definition, or at most a few additional suggestions. Time being of great value, the space taken for rules and tables will be appreciated. The rules given are all such as can be easily analyzed, since shorter ways may be adopted more understandingly when these are well comprehended and committed to memory. The tables will save many computations and prove invaluable for comparisons of measures, weights and values, which are continually arising in a factory. Finally, feeling that he has not been at liberty to devote to this work the time which it really requires, the author respectfully sub- mits the result of his labors to the most charitable consideration of his fellow-craftsmen, with the firm belief that it will be of much service to them, notwithstanding that it might be more complete. ALFRED SPITZLI. INTRODUCTION In publishing another book for the benefit of the textile interest, the object is not based upon the vain hope to displace others, or to produce one which will in any way injure any work which has gone before. Quite the contrary is the case with this work, intended as it is to show the use of every book mentioned in it, rather than to deter any one from the purchase of any or all of them. Three principles have governed the compilation of this work : First. Every book written with a good intent and purpose will do some good. Second. In this age of progress it is no longer possible to keep apace with the world without much reading for the purpose of acquir- ing the benefit of other's experience, theories and opinions. There- fore, while it is folly to place sole dependence upon book know- ledge, it is ridiculous to claim ability to do as well without books as with them. The interchange of knowledge through books, periodicals and newspapers being a necessity, the more that can be supported the better. Third. A book of this kind, to be really useful to beginners and experts, should be brief, filled with authenticated facts, convenient in size and arrangement, and of such a character that it will injure no one's standing to claim or acknowledge constant use of it as a reference. The first and second principles require no comment ; in behalf of the third, it is quite proper to call attention to the facts that a book written for the beginner and expert must contain much which for a time will be beyond the beginner, and more which is so familiar to the more advanced that they can hardly comprehend why such " stuff " should be published. To the former we can recommend nothing better than patience, perseverance and a determination to surmount every obstacle ; to the latter, patience and charity ; with the gentle hint that every man has in his time been brought up solid by snags that afterwards proved but a trivial affair; that what is easy to one is difficult for another; to serve many, the one who serves, must depend upon the served, to bear shortcomings for each other. As regards the convenience of this work, the size and alphabetical arrangement of the subject matter is such as to com- IO SPITZLI'S MANUAL. mend itself. The character of the book, while it gives elementary instructions, is not that of a primer, but rather of a compilation. The principal contributors to the work are practical men, and the author would have been better pleased had each consented to the publication of his name, instead of honoring him with the result of their labors. The authors quoted and consulted are those of the best and deserved reputation. The books from which abstracts have been taken are " Ashenhurst's Arithmetic," Ashenhurst, Ashton. Baldwin, Barlow, Burns, Gesner, Johnson, Langewald, Murphy and others on Designing and Weaving ; Chevreul on Colors ; Crooks, Dick, Napier, Gibson, Smith and others on Dyes and Dyeing ; Baird, Leigh and Webb on Cotton Yarn Warping, &c, &c. ; Holdsworth, Leroux and others on Worsted, Silk, &c, &c. ; Ure's Dictionary, several Standard Encyclopedias and general Lexicons have been depended upon for much more general matter pertaining to textile manufactures. The book which has been thus briefly introduced to the reader is not a single man's opinion but a collection of facts which should be of some service to any and all. Confidently believing such to be the case it is respectfully submitted, with grateful acknowledgement of the great and unexpected encouragement already received by the PUBLISHERS. THE MANUFACTURE OF TEXTILE FABRICS. Whenever or however the conception of a fabric may have originated, a definite idea of kind, character and appearance is the first formal stage in the progress of manufacture, which will serve as a starting point for a general discussion of this subject. From here out the next step is like that of the origination of an architec- tural piece of work, viz.: to produce working plans which shall in- clude all the specifications of materials required, the preparations thereof, their construction, and finally the finishing process. Such plans are called designs, and one who is competent to produce them, and only such an one, can rightly be called a designer. No man can claim a full and comprehensive knowledge of all branches of textile manufactures ; consequently the best work is produced by those who devote their energies to one branch only ; these receive the additional appellation of their respective branches, as carpet, tapestry, silk, woolen, worsted, cotton, print, or emboss- ing designers. Whether the designer of a fabric is entrusted with other duties, or not, he should be able to produce the designs of fabrics in his special line perfect and entire. This is not always called for. There may be certain particulars or specifications in the nature of the goods, or capacity of the factories, with which the design must comply ; but the ability to proceed from the beginning should, nevertheless, be possessed before a position is ventured upon. As an instance of limits within which a designer must work, we will cite a factory where only certain kinds of yarn can be pro- duced ; the stock and yarn in this case are points already settled, and will appear as such in a design. The ability to make a design which comprehends all the necessities of a fabric from first to last can only exist when a thorough knowledge of the many branches involved is possessed. To supply such knowledge for each branch in print is a task so utterly without limit that every single effort to furnish a share will be but a meagre tithe. Indeed, could all the necessary knowledge be written — an utter impossibility — there would even then remain a necessity for practice in the application, which can be obtained only by practical contact with the work and detail of every branch. Having shown how imperative and extensive the requirements to fit any one for the duties of preparing the designs 12 SPITZLI'S MANUAL. of textile fabrics are, it may encourage many to furnish them with a few suggestions. While preparing a design, one must bear in mind that the pecuniary object of a deviation from plain goods is to make a fabric conform to the customs and tastes of the consumers for whom it is intended. To this feature must be added special attractiveness, which pleases the senses of sight and feeling, and sometimes even those of smelling and hearing. As important as any, if not more so, is the consideration of the cost of materials and labor required. If these exceed the probable value of the fabrics complete, what object can there be in produc- ing them ? To exhibit a design, or to run the risk of losing the money ? In estimating the probable cost of a piece of goods, the designs for which are about to be made, the necessity of favoring a large production should never be lost sight of; it is a very import- ant feature of manufacturing in this country, and can only be neg- lected when some other object than profits is in view. To favor production the essential points are : stock that will produce yarn readily, and of sufficient strength to endure the subsequent opera- tions. Stock and yarn which will best produce the desired effects, thus avoiding the manufacture of false effects in finishing, which cost money and are never satisfactory. The matter of conforming the texture to the yarn is of no little importance, especially where the designer's duties are curtailed by specified yarns. A very important requirement of the designer is that he produce designs which can be successfully manufactured by the factory for which the design is intended. This at first seems a needless statement, but a contempla- tion of the many kinds of goods attempted by the greater proportion of factories in this country, will convince the most incredulous that there is a serious defect in the management of styles and patterns in American mills. The fact must be admitted, however, that de- signers cause but little of this trouble, that they are but a passive factor, controlled by those who ought .to have a knowledge of tex- tures and factories, and often lack them altogether. As an illustration we have in mind a factory overfilled with machinery purchased for the manufacture of a peculiar kind of goods, but this particular kind having been unfashionable for several years, an entirely different class of goods was introduced. The first class required a firm thread, elasticity was of no great importance, consequently the machinery purchased was such as would produce the yarn in the most rapid manner possible. The yarn now required for the goods in hand should be more perfect, and elasticity is an imperative requisite to make the goods right, and for display- SPITZLI'S MANUAL. 13 ing the stock used to the best advantage. In the same factory three-fourths of the looms are so light that all heavy goods are, and must be, woven with the warp very tight — a serious defect — as the contrary should be the case with the above-mentioned fault in the yarn. To show how utterly helpless the designer is here, it becomes necessary to state that the employers have never been able to realize much profit from this mill, consequently, whether they appreciate the impossibility of making the goods right, and to the best advan- tage or not, they do not feel disposed to spend twenty-five to fifty thousand dollars in applying a remedy. The main source of trouble, however, is in the manager of the goods in the market. A man who seems to be utterly regardless or incapable of comprehending the fact that no mill can make everything; that for some reason every mill sooner or later gets into a sort of rut even with the best conveniences, and once in it, can never be gotten out; in other words each mill seems to be successful with some particular kinds of goods, while others at best prove but an indifferent success. Now, if this particu- lar market man had some knowledge of factories and textures, he would aid the designer in keeping the mill on the styles which are least effected by the consequences of the factory defects. He would long ago have discovered that several very staple styles have been more than satisfactory from this mill, and that $25,000 per annum profit every year from these is better than $50,000 one year and $75,000 loss the next. In other words, he would keep the mill on the fabrics which would build up its reputation and yield a steady though smaller profit, instead of trying to make this factory, too small for fancies, over-crowded, improperly fitted up, supply him with the full assortment he wishes to show, which assortment should be made up by five or six factories instead of one. Carpets are carpets ; shawls, shawls ; but all silk goods, carpets, shawls, cassi- meres, or worsted goods are not alike, nor can all kinds of either be made successful by any one concern. If then the designs are a want for the conveniences of the factory as much as the factory is needed to carry out the designs, the pro- cesses involved should be considered and understood by all who have any authority in relation to the designs and styles used. The order of processes is something as follows : The selection of the raw material ; the separation of the material from matter which must not enter into the goods, and would injure the ma- chinery, yarn and fabric ; the color of the stock, if not right, must be made so by dyeing, but this process is in some goods deferred until the yarn or cloth can be dyed. Next comes the preparation H SPITZLI'S MANUAL. of the stock for spinning, which includes all the processes of card- ing and combing ; also various others of lesser note, but of great importance, which go before spinning; preparing the yarn for weaving, wearing, and finally the finishing of the goods. The last usually includes the cleansing of fabrics, as well as all the subse- quent processes. Silk and cotton are obtainable in such assortments that the stock goes direct from the market to the machinery. Not so with wool and many other animal fibers, which can be procured in market classified or graded only. These grades must be assorted accord- ing to their fineness, length and strength, into sorts or qualities, which are usually numbered ; they were formerly, and are yet by some, named. This assorting is a branch which requires some months of practice before any one can be entrusted with the work. (See Assorting.) The stock of the proper kind being ready, the washing and dye- ing come next, when necessary, as with wool, hair, etc. Cotton is not washed in the loose state. Silk is treated entirely different from staples in the preparation processes. Before washing or scouring wool, it is by some run through a machine called willow or duster to free it of all dust, sand and short rubbish which can be shaken out. This makes the scouring liquors do more service, and pre- pares the wool in a measure by opening it for a more ready absorp- tion of the liquors and final rinsing. The methods of scouring and washing are briefly considered under the respective headings. Some staples are subjected to machinery for opening and clearing of burrs, seeds, etc., etc., in the raw state; others, later in their progress, to the carding department. Several of these methods, as well as the important processes of carding, spinning, weaving and finishing are separately considered elsewhere. The only further reference to them called for here is a special exhortation to give each and all due consideration. No part of them can be slighted or dispensed with if a thorough review and study is undertaken. Having thus briefly drawn attention to the extent of the field of research to be canvassed by those who wish to be prepared for the duties of the designer, we must leave the matter with these sug- gestions. The more thoroughly and practically that this prepara- tion is attended to, the easier and better will the subsequent labors prove. It will not do to fear a little grease upon the hands or sweat upon the brow, nor yet some pain in the back, for some things can be learned only when done, and done only at the cost of some discomfort. A SHORT CHAPTER OF SUGGESTIONS TO BEGINNERS. As in every other art or science, all preliminaries in preparing any one for the duties of a designer or general manager of a manu- facturing establishment should have but one aim — to train and discipline the mind, senses and abilities in the proper direction. The powers of concentration and continued application must be acquired by most men, and not a few find it a hopeless battle; yet without such powers some other business would probably answer better. The next important step is to become familiar with a large variety of fabrics already in existence. In pursuing this requisite study, the first suggestions are easily applied. The best method is to obtain samples from every available source, dissect them with care, and use each sample as a base of operations, until all the par- ticulars are obtained. First, by studying out as many as possible ; next, by inquiring for the balance. This method will aid the student in asking direct questions, a feature in questioning which is a great help to one who asks and the one who is to answer. Nothing is more discouraging to a tutor than many questions which show a lack of thought on the part of the questioner. Few men can refrain from answering questions which show deep and intent thought, and few care to be bothered with anything trivial. A little further digression will be pardonable here. Young people often flatter themselves with the idea that they are thinking, when in reality they are only dreaming. The difference is so great that the one almost always bears fruit, the other seldom. To obtain samples is a matter so easy that they can at times be collected much faster than properly dissected and studied. Such surplus is not worthless because plenty. Discard worthless samples from the first, and preserve good ones with care. As each sample is dissected let it be neatly trimmed and fastened in a durable book, all the drafts recorded in another, and all the general information in regard thereto which has been gleaned from any and every source, briefly and correctly recorded in a third, care being taken to keep up a system of numbers and page references r 6 SPITZLI'S MANUAL. " which will make search for particulars of any pattern easy. If any beginner would realize the importance of this suggestion, let him imagine if he can, what he would give for such a collection of books compiled by some man of large experience. These suggestions are written with the supposition that no one will venture to begin designing without some adequate knowledge of looms. Should this for any reason have been neglected or post- poned, it must be delayed no longer after the decision is fully con- cluded to continue the study. Good instruments are not only a great aid but much cheer to a beginner; better have a few pieces only, and have such as will warrant a commendable pride. Having good instruments, the next point is to learn their use and application thoroughly. Some have the impression that once in possession of the proper instruments all will be easy, but like everything else, designers' instruments require much practice before their advantages can be known or shown. Furthermore, designing being a calling which demands cultivation of good taste, this cultivation should show itself in everything; the person, books, instruments and surroundings. From the earliest beginning the habit of keeping close vigil over all processes by constant examination of goods ready for market is an advantage that should never be missed if available. So com- plete is the general supervision, that managers have been known to direct the operations of the factory almost entirely from this point of observation with tolerable success. Designing, dissecting, weav- ing, etc., etc., are treated very minutely in another part ; to those parts reference may be made for special points of information. Far the most common fault in manner and method of beginners is the impatience they exhibit in everything ; especially is this true in younger persons. The necessary time to do anything methodi - ' cally is seldom taken, but the worst phase of this fault is that which shows itself when anyone imagines that rapid work is sure evidence of familiarity with, and special ability for, the work in hand. Such people have more or less deceit in them to commence with, they would appear smarter than their own consciousness allows. The result of such labor is almost invariably faulty, and the whole principle of the method or habit is demoralizing in every sense of the word. Particularly in designing, or any kindred work, is the old saying applicable, " Anything that is worth doing at all, is worth doing well." Few things in the designing room can be done well without the most thorough preparation. The outside duties, if any, which SPITZLI'S MANUAL. I 7 compel a designer to slight his work are an injury to him and his employers, hence we contend that manufacturers do not save so much as they imagine when they make one man hold several such positions. The wages of one man for a year is sometimes lost by one neglect, one hurried piece of work, one error. Such losses are attributed to other causes, even by the one who knows better, for fear of consequences ; thus manufacturers go on losing money faster than they can save it, at the same time making liars out of young men per force. To the beginner we would give this advice : Take your time, do your work right, never mind what people say or think, lose twenty positions because too slow, rather than one for errors or bad work, and rather than be one of the many who falsely deny a fault, failing, error or even inability, stay in the humblest position; there is more honor and satisfaction in it. Large salaries, easy positions and great reputations afford no comfort to him who holds his position by trick or deceit. And to employers we would say, treat the young men accordingly, so that they can be upright. Definition, Explanations ahd Instructions. Aba. — A woolen stuff or fabric manufactured in Turkey. Abaca. — Commonly known as Manila hemp. " A species of fiber obtained in the Philippine Islands in abundance. Some authorities refer those fibers to the palm tree known as the Abaca, or Anisa textiles. There seem, indeed, several well known varieties of fiber under this name, some so fine that they are used in the most delicate and costly textures, mixed with fibers of the pine- apple, forming Pina muslins and textures equal to the best muslins of Bengal. Of the coarser fibers, mats, cordage and sail-cloth are made. M. Duchesne states that the well known fibrous manufac- tures of Manila have led to the manufacture of the fibres at Paris into many articles of furniture and dress. The'ir brilliancy and strength give remarkable fitness for bonnets, tapestry, carpets, net- work, hammocks, etc." (Ure's Dictionary.) Abb. — An old English term for warp yarn. Abol'la. — A military robe of thick woolen stuff in use among the ancient Greeks and Romans. Acescent. — Substances which have a tendency to pass into the acid state. Acids. — Acids are a class of chemicals which have the property of combining with and neutralizing the alkaline bases, thereby form- ' ing salts. The acids of special interest here are : Acetic, Arseni- ous, Carbonic, Chromic, Citric, Hydrocyanic, Malic, Muriatic, Nitric, Oxalic, Phosphoric, Sulphuric, Tartaric. These are here mentioned because important factors in tests, dyeing and printing. Acetic Acid, in briefest terms, is Vinegar Acid. Acetimeter, Acidimeter, Acetimetry and Acedimetry are terms easily con- founded ; alluded to in this connection, their relations are easily understood. Acetimeter being an instrument for ascertaining the strength of Acetic Acid, an Acidimeter an instrument for determin- ing the quantity of acid contained in a free state in liquids. Aceti- metry being the art or method of testing acetic acid, Acidimetry that of testing and estimating acids in general. SPITZLFS MANUAL. I 9 Acidulous Salts — All salts containing acids — any saline compound — of which the acetic is the acid constituent, is said to be Acetate. Acetate of Copper is Verdigris, Acetate of Lead and Blue Vitrol. Arsenious Acid — Arsenic. — The principal use made of it by the manufacturer of textile fabrics is best expressed in the words of Mr. Alfred E. Fletcher in a letter on the uses and advantages of aceto arsenite of copper, commercially known as Emerald Green. In reference to the dangers from evaporations from articles colored with it, he says : " Were it true that such evaporation or dissemination went on, it would indeed afford just cause for alarm, when we reflect that on the walls of houses in this country (England) are displayed some hun- dred millions of square yards of paper, most of which carries on its surface a portion of arsenical coloring matter ; our books are bound with paper and cloth so colored, cottons and silks, woolen fabrics and leather are alike loaded with it." Carbolic and Carbonic Acids are easily confounded by those who know nothing of their chemical nature. The former is an oily liquid, colorless, a burning taste, resembles creosote and is obtained from coal tar. Carbonic acid is composed of one part carbon and two of oxygen. In its ordinary condition it is a gas, but may be reduced to a liquid or solid state by cold and pressure. It is given out by animals in breathing, by liquors while fermenting, by the decomposition of all substances, and by the combustion of wood, coal, etc. Water will absorb its own weight of it, and more under pressure ; combined with lime it constitutes limestone, or common marble and chalk. Chromic Acid may be obtained nearly pure by adding to a boiling saturated solution of bichromate of potash as much oil of vitriol as will convert the potash into a bisulphate. Let the whole cool, then wash with a little water, stir well and decant. Citric Acid in crude crystals is used in calico printing ; is manu- factured similarly to tartaric acid. Hydrocyanic Acid is more commonly known as prussic acid. Hydrochloric Acid. — Chemical name for muriatic acid. Malic Acid. — The word malic pertains to apples, consequently malic acid is understood to be acid made from the juice of apples. Sometimes recommended by dyers in connection with certain states of fermentation, but not in common use. Mttriatic Acid consists of one equivalent of hydrogen and one of clorine; hydrochloric acid, formerly called "marine acid" or " spirit of salt " because made of sea salt. Much used in dyeing. 20 SPITZLI'S MAM UAL. Nitric Acid. — Corrosive, contains five equivalents of oxygen and one of nitrogen. Oxalic Acid may be obtained by the action of nitric acid on vege- table substances. Well washed sawdust, starch, gum, sugar or any others containing no nitrogen, yield the most. Sugar has been com- monly used. This is an important acid for dyeing. Phosphoric Acid is recommended by some authors for many wants of dyers and printers, but is not yet used extensively by the former. Finely ground bone ash, digested with oxalic acid and water, yield phosphoric acid. Sulphuric Acid, or Oil of Vitrol. was formerly procured by the distillation of dried sulphate of iron called green vitriol. This method is now superseded by the combustion of sulphur with niter. The affinity of sulphuric acid for water is very strong. An in- teresting illustration is the fact that, when exposed to the atmos- phere in an open saucer, it will imbibe one-third its own weight in twenty-four hours. This acid is used in great quantities by dyers. Tartaric Acid is obtained from tartar. The method would be very simple but for the great variation in tartar or argols. Adulteration. — The debasing any product of manufacture, especially chemical, by the introduction of cheap materials. . Affinity. — The chemical term denoting the peculiar attractive force which produces the combination of dissimilar substances. It is often called elective attraction, to distinguish it from corpuscular or cohesive attraction, by which particles of like kinds of matter are combined; and because it displays the power of selecting its prefer- able associates. Ageing. — The fixing of mordants by age. Instructions may be found in Crook's " Handbook of Dyeing and Calico Printing," pp. 280. Albumen. — Animal and vegetable. Used in printing establish- ments, sometimes in sizing and cements. No satisfactory substitute has yet been found for all purposes. Alcohol. — Alcohol is produced by distillation of vegetable juices and infusions of a saccharine nature. Its principal use in factories is that of a solvent. As the amount of water purchased in the lower grades is out of proportion with the range of prices, it is economy to buy the best and add water to suit. The spirits com- mercially known as wood alcohol serve well for many purposes, and such is the odor and taste that workmen are not so sorely tempted SPITZLI'S MANUAL. 2 1 to imbibe it. Some recommend the addition of methyl to alcohol to prevent its use as a beverage either in full strength or dilluted- This is no injury to the required properties of the spirits. For many colors the addition of a little orange shellac is an advantage. Alder (Anne. Fr. Erie. Germ. Aluns Glutinose, Lin.) — A tree, different species of which are indigenous to Europe, Asia and America. The wood of this tree, when properly seasoned, makes the best "Top Rolls" for spinning and drawing frames. The American Elder is another wood — a certain newspaper article to the contrary notwithstanding. Alkali. — Potash and soda were for some time confounded together, and were hence called alkalis. Ammonia was subse- quently distinguished as the volatile alkali, potash and soda being fixed alkalis. Alkalimeter. — An instrument for measuring the alkaline force or purity of any of the alkalis of commerce. Alkalimetry. — The object of alkalimetry is to determine the quantity of caustic alkali or of carbonate of alkali contained in the potash or soda of commerce. Alizarin or Alizarine (or lizaric acid) is the most important and the most valuable coloring matter contained in madder. It is the only one which yields fast dyes capable of resisting the operation of cleansing. By a series of experiments made by Schiitzenberger with variously-mordanted cloths, submitted afterwards to dye-becks, containing madder and its commercial preparations, it has been fully proved that in these dyed shades — Turkey-red included- — alizerin alone is present. Hence, it is inferred that alizerin pre-exists in the madder-root, and is not a product of any subsequent decomposition. (Ure's Dictionary.) Alloy. — Alloy is the proportion of a baser metal mixed with a finer or purer. Aloe {Alois, Fr.; Glauindes aloe, Ger.) — In botany a genus of the class Hexandria monogynia. There are many species, all natives of warm climates, some furnishing useful fibers, others a dye. Alpaca (Alpaga, Fr.) — An animal of Peru, of the Llama species ; also the name given to a woolen fabric woven from the wool of this animal. This fabric is now very successfully made in this country, but the highest lusters are still imported. Fabrics made with other fibers, made to resemble the genuine, are sold under the same name. 2 2 SPITZLI'S MANUAL. Alum (Alun, Fr.; Alaun, Ger.) — A saline body or salt, consist- ing of alumina, or the peculiar earth of clay united with sulphuric acid, and these again united with sulphate of potash or ammonia. In other words, it is a double salt consisting of sulphate of alumina and sulphate of ammonia. The common alum crystallizes in octa- hedrons, but there is a kind which takes the forms of cubes. It has a sour or rather subacid taste, and is peculiarly astringent. (Ure's Dictionary.) Alumina. — The pure earth of clay, or argillaceous earth. It is the oxide of the metal aluminum, the basis of the aluminous salts, and the principal constituent of porcelain, pottery, bricks and tiles, and not "frequently used in dye houses," as stated in a recent work on dyeing. Alum, Native. — This term includes several compounds of sul- phate of alumina with the sulphate of some other base, as magnesia, potash, soda, the protoxides of iron, manganese, etc. Alum Shale. — The chief natural source from which the alum of commerce is derived in some countries. It occurs in a remarkable manner near Whitby, in Yorkshire, and at Hurlet and Campsie, near Glasgow. Am a. — Saxon word for the loom beam. Amber. — The substance amber is of little account to textile manufacturers, but the word is often used as the name of a beauti- ful, delicate shade of yellow. Amianthus. — A mineral in silky filaments, more commonly known as Asbestus. Ammonia. — A chemical compound, called also volatile alkali. This substance, in its purest state, is a highly pungent gas, possessed of all the mechanical properties of the air, but very condensable with water. It consists of three volumes of hydrogen and one of azote condensed into two volumes ; and hence its density is 0.591, atmospheric air being 1000. By strong compression and refrigera- tion it may be liquified into a fluid, whose specific gravity is 0.76, compared to water, 1000. Ammonia is generated in a great many operations, and especially in the decomposition of many organic substances, by fire or fermentation. Urine left to itself for a few days is found to contain much carbonate of ammonia, and hence this substance was at one time collected in great quantities for the manufacture of certain salts of ammonia, and is still used for its alkaline properties in making alum, scouring wool, etc. When woolen rags, horns, bones and other animal substances are decom- SPITZLFS MANUAL. 23 posed in close vessels by fire, they evolve a large quantity of ammonia, which distils over in the form of a carbonate. The main source of ammonia now in this country, for commercial purposes, is the coal gas works. A large quantity of watery fluid is condensed in their tar pits, which contains, chiefly, ammonia combined with sulphureted hydrogen and carbonic acid. When this water is saturated with muriatic acid and evaporated it yields muriate of ammonia, or sal ammoniac, somewhat impure, which is afterwards purified by sublimation. (Ure's Dictionary.) Amorphous {without shape). — Said of mineral and other sub- stances which occur in forms not easy to be defined. Analysis. — The art of resolving a compound, substance, texture or machine into its constituent parts. " Every manufacturer should so study this art, in the proper treatises, and schools of chemistry or mechanics, as to enable him properly to understand and regulate his business." And designers have especial need to study the analysis of the many textures with which they come in contact, as this soon educates the mind to a quick perception of a texture without the long and tedious method of dissecting every pattern entirely. The analysis of colors is a study which properly belongs to the designer as well as the dyer. Aniline. — An organic compound, which may be procured in sev- eral ways : First, when isatine is fused with solid hydrate of potash ; second, when to an alcoholic solution of benzine a little zinc and muriatic acid is added ; but it is obtained best from coal tar, which is to be distilled in a large iron retort, and the successive products to be separately received, especially the latter and denser ones. This heavy tar oil is to be strongly agitated along with muriatic acid in a glass globe. The acid solution contains the aniline, which, being of an alkaline nature, is called a volatile base. It must be subjected to an operose process of purification with milk of lime, etc., too complex to be detailed here, as no useful applica- tion of it in the arts has hitherto been made. Dr. Hofmann has written many elaborate papers upon aniline and its saline combina- tions. — (Ure's Dictionary). Gibson, in his remarks on li Aniline and Aniline Colors," says : "Asa general thing, we find that most of the aniline colors are not soluble in water; the blues are the most insoluble; the violets or purples come next; the reds are sufficiently soluble for dyeing in boiling water. The solvents for most of the aniline colors are alcohol, acetic, sulphuric and tartaric acids. When alcohol is used as the solvent, its proportion we find 24 SPITZLI'S MANUAL. variable with the kind of dye or substance it has to dissolve. I find that thirty-five parts of alcohol to one of blue, and twenty-five parts of alcohol to one of violet, are good proportions. The iodine blues, where the iodine has been left (in the colors) will require a less quantity of alcohol to dissolve them, and the same may be said of the violets. All aniline colors will precipitate by adding a solu- tion of tannin (sumach or nut galls) to them, but can be dissolved again in alcohol, acetic acid, or diluted oil of vitriol. There have been several methods adopted to do away with alcohol as a solvent, such as decoctions of certain roots, but these methods have not been very successful. Concentrated sulphuric acid, with or with- out the aid of heat, will dissolve the aniline blues or violets, and by the addition of a large amount of water it will be rendered soluble in hot water ; but if you should have your oil of vitriol too hot when dissolving the blue analine, it will impair their fastness. The soluble blues or violets are colors that have been treated with sul- phuric acid to make them more soluble, and I warn dyers against them, as we all know that too much solubility is a detriment to dyeing fast colors, but for yarns and flannels it is not so objection- able. The colors obtained from phenic acid and napthaline are often more soluble than those from aniline. The impurities in aniline are, as a general thing, sugar, salt, arsenic, resinous and tarry substances. Sugar and salt you will find in the reds and violets mostly. To detect this fraud is simple : Put a small quantity of the solid dye in a test tube, then add alcohol and shake it well. Let it stand for a few minutes, then pour it off carefully, leaving the residuum. Add some more alcohol, and so repeat the operation until the dye is all dissolved, when the sugar or salt will be found at the bottom of the test tube ; those substances, not being soluble in alcohol, will of course settle to the bottom." Annealing or Nealing (Le recuit, Fr.; das an/assen, Germ.) — A process by which glass is rendered less frangible ; and metals, which have become brittle, either in consequence of fusion or long- continued hammering, are again rendered malleable. Annotto. — This shrub was originally a native plant of South America, but is now cultivated in St. Domingo and the East Indies. It is called by botanists bixa orellana, and grows to the height of eight or ten feet, and never exceeds twelve feet. The leaves are a reddish brown color, about four inches long. The stems of the leaves are made into ropes by the natives. According to Dr. John, the following ingredients are the composition of annotto : SPITZLI'S MANUAL. 25 Coloring and resinous matters 28.0 Vegetable gluten 26 . 5 Ligriine 20 . o Extractive coloring matter 20.0 Matter resembling gluten and extractive 4.0 Aromatic and acidulous matter 1.5 100. o Muriatic acid has no action upon annotto. Nitric acid will decompose it and form several compounds. Sulphuric acid gives it a blue color, resembling indigo, but will change from blue to a dark purple. Alkalies give it a clear orange color. Chromic acid pre- cipitates a deep orange tint. Annotto is easily dissolved in alkalies, in which solution it is used in the dyehouse. The alkalies that are most used to dissolve annotto are potash or soda-ash, and, if light shades are wanted some dyers use soft soap in the solution. Some keep a stock of liquor on hand, but I have found it to be better if newly made. My mode of preparing annotto is this : To a barrel of water take fifteen pounds of annotto, four pounds of carbonate of soda, three pounds of soft soap; boil it until the annotto is all in solu- tion (dissolved). The colors given by annotto are fugitive, if exposed to the light and air. Acid or alkalies cannot completely destroy the colors dyed by it. Good annotto is of a lively red color. (Gibson.) Anthracite. — A variety of coal containing a larger proportion of carbon and less bituminous matter than common coal. (De la Beche.) Anti-Attrition or Anti-Friction Composition. — Various preparations have been, from time to time, introduced for the pur- pose of removing, as much as possible, the friction of machinery. Black lead, or plumbago, mixed with a tenacious grease, has been much employed. Peroxide of iron, finely divided haematite, etc., have also been used. The manufactures of the Dixon Crucible Co. of Jersey City, N. J., can safely be recommended for this purpose. Anti-Friction Metal. — Tin and pewter in different proportions are much used. Babbett's metal, about fifty parts tin, five antimony and one copper, is very common in this country. Another formula for the same composition is : Melt four pounds of copper, add by degrees twelve pounds of best Banca tin, eight pounds of regulus of antimony and twelve pounds more tin. After four or five pounds of tin have been added, reduce the heat to a dull red, then add the remainder of the metal as above. This produces the composition termed hardening ; of this take one pound and melt with two pounds 26 SPITZLI'S MANUAL. " of Banca tin to produce the metal for use, which makes the complete proportions one part copper and two parts of regulus antimony and twenty-four parts tin. Tin, copper and spelter are used. When compositions are too soft they will not do for heavy pressure. Aqueous Tincture. — Solutions of solids diluted with water. Archil. — This comes to the dyer in casks containing a violet or crimsoned colored liquor and a large quantity of weed. This weed is called Lichen Roccella, a species of sea weed or moss ; the best sort comes from the Cape de Verde Islands, but it is found on the coasts of Sweden, Ireland and Wales. The coloring matters of the lichens are known in commerce as the following : First, as a pasty matter called archil; second, as a red powder called cudbear. The mode of preparing archil is by grinding them to a pulp with water; they are then thrown into liquor containing quick lime and am- monia; after standing a few days both the plant and liquor are put into casks, and it is thus received by the dyer. When it is two years old its coloring properties are fully developed; after that time it begins to deteriorate. It gives very blooming but fugitive colors? and is not much used in woolen dyeing, excepting for blooming mulberries, dahlias, etc., and for bottoming for reds, safflowers and cochineal colors, etc., it gives a depth and beautiful tint to the colors so dyed. In 1857, Mr. Marnas of Lyons discovered a pro- cess to make with this dyestuff a color that was beautiful and fast and called the color French Purple; it was produced in the follow- ing manner : " Powdered lichens are macerated with lime water, in order to render soluble the coloring matter, which combines with the lime. After nitration, muriatic acid is added, which saturates the lime and causes the coloring substance to separate in a gelatin- ous state, which is washed and dissolved in hot ammonia. The solution is very slow, as it requires from twenty to twenty-five days, and a temperature of 153 ° Fahrenheit. The ammoniacal liquid, which has become violet, is then precipitated by chloride of cal- cium ; a purple lake is then produced, which is the French Purple. Acids change the color to a Bright Red. Alkalies " " Blue. Rock Salt gives it a Crimson Tint. Sal Ammoniac Ruby Red Tint. Crystals of Tin Red Tint. Bi-Sulphate of Copper Cherry Brown color. Argols. — Crude Tartar ; an acidulous salt from which cream of tartar is made. It exists in the juice of certain fruits, notably the grape; is deposited from wines upon the sides of the casks. The SPITZLI'S MANUAL. 27 Germans call it Wein Stein (Wine Stone). It is very commonly used in dyeing, in various forms. Arras Tapestry. — A line of tapestry fabrics named from Arras in France. Assorting or " Sorting." — The sorting of various kinds of stock is an important branch of manufacturing. In some staples it is done before the raw material is offered for sale to the manufacturers, but particularly in wools quite the contrary is the case, even the grading or classifying being frequently very imperfectly done in these. The assorting of wool is also the most intricate. When well done it im- plies attention to the fineness, length, strength, state or condition, and part of the fleece from which it came. For fineness alone it is customary to make from three to eight sorts For length two to four — according to the work for which it is assorted, or there may be a short, medium and long sort. The assorting for strength is carried on very differently in various places ; the most common practice is to throw a tender lock into the short sorts ; in some mills they must also be thrown to one grade lower in fineness than if they were full up in strength. This is not a good practice, as a lot which happens to have much tender wool will vary the quality of the sorts too much. When such a lot is purchased it is better to make a strong and a tender sort, to ascertain in what proportions the differ- ence exists, giving the manager an opportunity to control the use of it. The matter of " State or Condition " refers to the health and cleanliness, the impurities being natural grease, burrs, seeds and sand. The part of the fleece from which it came is also considered first in relation to fineness, and then as to condition, for the wool from different parts of the fleece is very different in its nature, some of it being little better than hair. Of assorting wool the fact re- mains, efforts to the contrary notwithstanding, that it is too import- ant to be slighted by carelessness or false economy. Even work, good work, and increased product, yield a return to which a few pennies per pound are not a comparison, and yet many mills suffer throughout from this evil in the very beginning. Assorting yarn is another important branch in manufactures, but only practical here and there. An experienced hand can assort all the yarn from quite a large factory, detect all that is imperfect, reject that which has been made, and give proper notice that the defect may be corrected and so save thousands of dollars ; yet to save $500 or $600 per year this duty is altogether dropped, given into the hands of heedless youth, infirm or blinded age, or perhaps to an overseer who has enough else to do. Assorting waste 2 g SPITZLI'S MANUAL. should not be neglected in any factory. The wages are returned with a rich increase if this is attended and done judiciously. As- sorting rags is a department of some woolen mills as well as paper mills. When shoddy is made this is the first essential process. Dark and light, all wool and part cotton, thick and thin, old and new, must all be separated to attain the best results. Rags contain- ing silk threads are usually thrown with those containing cotton. Astrakhan. — The name of a country, but sometimes used as a name for yarn made of Astrakhan wool. Avoirdupois Weight. — The standard avoirdupois pound of the United States is the weight of 27.7015 cubic inches of distilled water, at 39. 83 Fahr., the barometer being at 30 inches. Avoirdupois Weight — Equivalents of in Troy Weight. roirdupois. Lbs. Oz. Dwt. Grains. I Ton = 2922 2 13 8 1 Cwt. = 146 I 6 16 1 Qt. = 34 O 6 16 1 Lb. = 1 2 11 16 1 Oz. = 18 Si 1 Dr. = 1 J32 Avoirdupois Weight — Equivalents of in Apothecaries' Weight. , Apothecaries , Avoirdupois. Lbs. Oz. Dr. Scr. Gr. I Lb. =1242 O i Oz. = 70 17! 1 Dr. = 1 l\\ Avoirdupois Weight — Expressed in Grams or Metrical. Avoirdupois. Grams. I Ton = 1,015,938.84 = 1,016 Milliers. 1 Cwt. = 50,796.94 = 5,080 Myriagrams. 1 Qt. = 12,699.23 = 1,270' Myriagrams. 1 Lb. = 453-54 = 4.535 Hectograms. 1 Oz. = 28.34 = 2 .834 Dekagrams. 1 Dr. = 1.77 Axminster Carpet. — The manufacture of Axminster carpets is a mere modification of the Persian method, for the worsteds are only knotted to the warp threads. They derive their name from a town in Devonshire, but the seat of manufacture has long been removed to Wilton. Aylesham Cloth. — The linen manufacture became well estab- lished in Norfolk, and Aylesham became noted for its flaxen fabrics. "The Fine Cloth of Aylesham," "The Aylesham Linens" and the " Aylesham Webs," are frequently mentioned in old records. Eng- lish weavers, it is said, knew how to work artificially designed and well figured webs. SriTZLI'S MANUAL B. 29 Backing. — This word is frequently used as an abbreviation for Backing Fabric, Backing Yarn, etc., etc. Backing Fabric. — Backing Fabrics are rare, except on woolen and worsted goods. There are many other goods having several fabrics one upon another, not for the purpose of backing, but to keep certain yarns practically out of sight when not needed to com- plete the face fabric. In other words, parts of all the fabrics are necessary to make the face fabric complete. A backing fabric is merely an addition to increase the weight without changing the face fabric. The elementery principles involved in adding backing fabrics are illustrated under the head of Textures. A few common textures, with a backing filling tacked into the fabric are repre- sented below. Warp yarn may be put in, in a similar manner, but as the yarn is hard, and the number of threads greatly increased, the result is not satisfactory. Backing Yarn. — Backing yarn is usually made of a cheaper grade of stock, but it will not pay to have the stock so poor as to go bad, whether in warp or filling Neither is it safe to be careless about evenness, twist or color. The matter of uneven backing yarn is serious, because the effects of it usually show through. The trouble may not be so serious if in the warp, but in the filling it is very bad. The makeshift commonly resorted to — more shuttles — is frequently unavailable if the face calls for several also. The matter of twist is quite as important for backing as face. On most goods it should be as soft as possible, and still have the yarn weave good. The color of backing is often of little account in the esti- mation of manufacturers, but specky, rusty or faded backs will con- demn a piece, sometimes even before a customer has seen the face. Balance of Cloth. — This is a term which is capable of wide interpretation. The general interpretation which is put upon it is the proportion in which the warp and weft stand to each other. But if definite rules were laid down according to this interpreta- tion, one cloth might be perfection, and another cloth, according to the same rule, might be anything but perfection. Yet to all appear- ance, and for the different purposes to which they were to be applied, and according to the principles upon which the two cloths were constructed, one might be as perfect a sample of a cloth as the other. Again, the interpretation may be a wider one, and it may be said that a properly balanced cloth is one in which the 3o SPITZLI'S MANUAL. warp threads are set at a certain distance from each other, accord- ing to their diameter and weight, and the proportion of weft to warp which existed in the cloth. This interpretation would be a perfectly correct one, and might be carried out in its entirety, but the particular distance of the threads from each other, or the pro- portion of weft and warp, which might be taken as a basis, could only be taken for the one particular class of fabric to which it applied, because although that proportion may be all that could be desired for one fabric, experience teaches us that it could not be so for all fabrics, therefore no fixed rule could possibly be laid down which would be applicable to all cases; but, the rule being found for any one class of fabric, it would be applicable to all fabrics of that class. Suppose we are dealing with a plain cloth, in which the warp and weft are both of the same material, and that the warp is so set in the reed that the diameter of the thread and the space between the threads are equal, the weft threads are equal in thick- ness or counts to the warp threads, and there are the same number per inch both ways. Then the cloth may be truly said to be equally balanced; and whether the material be woolen, cotton or linen, the cloth will be perfect in its construction and will be made on the truest principle. But it frequently happens that to produce special efforts this principle must be departed from. For instance, it may be desired to produce a corded effect, the cord to run either length- wise or across the piece, a different method must necessarily come into operation. We will wish to make a poplin, in which it is desired to have a decided cordy character, the cords running across the piece ; instead of the warp threads having a space between them equal to the diameter of the threads, they must be set very closely together, and the weft threads must be some distance apart, other- wise the clear cord could not be preserved. But although it is necessary that the weft threads be some distance apart, that dis- tance must not be too great or the cord will again be destroyed. Then from this it must be concluded that the warp threads must be set as closely as possible without being too crowded, and the weft threads must be driven as close together as the crossing of the weft threads will permit, and the more carefully this is observed the more perfect will the appearance of the cord be, and this will be materially increased if the weft be proportionately thicker than the warp. But it having been determined what sett of reed for a given count of yarn will produce the best result, it is easy to determine what reed will suit any other count of yarn to produce the same results. Then suppose that the cord, instead of running across the SPITZLI'S MANUAL, 3 I piece, is intended to run the length of the piece, the procedure will be the reverse of the previous one — that is, the warp threads must be further apart, and the weft as close together as possible ; and if the bulk and distance apart of the warp threads be increased, and the bulk and distance apart of the weft threads diminished in a proportional degree, the clearness and boldness of the cord will be increased accordingly, so that in both cases the proposition laid down will hold good. From these two examples another conclusion must be drawn. In the first the warp preponderates largely on the surface of the fabric, and in the second the weft preponderates ; and we have seen that as the warp or the weft preponderates it must be increased in quantity, and that which is least seen must be de- creased in quantity — that is, in the number of threads per inch. This rule holds good, not only for plain cloths but also for any other make of cloth. If we turn, for example, to twilled cloths, in which some quantity of warp and weft are visible on the face, and in which the warp and weft are of the same material and thickness, then the same rule applies as in plain cloths, viz., that there should be the same number of threads one way as the other. But twilled cloths differ very materially from plain cloths in this respect, viz.: that from the very construction of the cloth the threads must be closer together for the same thickness of thread than for plain cloth, because in a plain cloth the warp and weft threads cross each other, and are interwoven at every pick ; whereas in a twill cloth they may pass over a number of threads before they are interwoven ; therefore the greater the number which are passed over before the interweaving, the closer or thicker the threads must be to pro- duce an approximate firmness of texture. Hence it is that twilled cloths are so much better adapted for producing heavy, bulky fabrics. In making twilled cloths, the warp or the weft may be made to preponderate on the face of the fabric in two distinct ways : First — In the same manner as in plain cloths, by bringing the warp threads closer together and putting in fewer picks, at the same time decreasing the thickness of one thread and increasing the thickness of the other, or by increasing the distance apart of the warp threads, and putting more picks, again increasing the bulk of one and decreasing that of the other. Second — By bringing one or the other more to the surface in the order of working, it must also preponderate in a like degree in the number of threads per inch, or in the actual quantity of the material, and it is only when that is done that the cloth can be properly balanced. We can have no better illustration of this rule 32 SPITZLI'S MANUAL. than in some of the best examples of satin cloths, in which the rule will be found to be observed to the last degree. In any cloth in which this is not done, not only will the cloth have an unpleasant appearance, but the effect of the pattern is marred considerably also. These observations apply more especially to fabrics in which the warp and weft are of the same materials, but they apply also to fabrics in which the warp and weft are of different materials; in the latter case, however, attention must be paid to the nature of the material, their density, and their adaptability to blend or assimilate with each other, because the relative proportion of warp and weft, thickness, ends per inch, etc., in one material may be quite correct, if both warp and weft are the same, but if the warp be of one material and the weft of another, then a decided change may take place in their combination. Not only will this be so if one of the threads be vegetable and the other animal substance, but it may be equally so if they are both either animal or vegetable. The com- bination of a woolen thread with a cotton thread would produce a very different effect from the combination of worsted with cotton, although in both cases it is a combination of animal and vegetable." (Ashenhurst.) Bandanna. — A style of calico, in which white or brightly colored spots are produced upon a red or dark ground. It seems to have been practised from time immemorial in India, by binding up firmly with thread, those points of the cloth which were to remain white or yellow, while the rest of the surface was freely subjected to the dyeing operations. The European imitations have now far surpassed, in the beauty and precision of the design, the oriental pattern ; having called into action the refined resources of mechanical and chemical science. (Ure's Dictionary.) Banding or Bands. — The cordage used to drive spindles. All bands on a machine and on like machines in the same factory should be made of the same yarn, twisted and gauged with care. The practice of using all kinds of old odd yarns for bands has caused much/uneven work that could not otherwise be accounted for. To keep the tension on bands throughout the machinery per- fectly even, and alike, requires constant watching, not by children, but by competent and responsible persons. To renew bands regu- larly is another necessity if even work is wanted. After many bands are badly worn the difference of new ones (which never draw the same as the old) will soon make bad work. It is better to change the whole set. SPITZLI'S MANUAL. f BACKING FILLING TACKED INTO FABRIC. 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I I 1234 34 SPITZLI'S MANUAL. Bar Loom. — The looms known by this name are considered the first power looms that proved successful. Barwood. — A hard resinous wood brought principally from Sierra Leone. Is of similar nature for use in dyeing as camwood and sanders. Is used in a ground state, gives a permanent coloring matter, with or without mordants, is employed for deep sombre colors and requires much boiling to extract the dye. Baudekin or Baldekin. — A rich cloth used in Mediaeval times, named from Baldak or Bagdad. Bayeux. — A well known tapestry which was said to have been the work of Matilda, the wife of the Conqueror, and her assistants. Some fabrics having a faint resemblance to the above are occasion- ally given this name. Bead Lams and Standards. — Old time mounting of bead harnesses, for gauze or cross weaving, on hand looms. Bead Loom. — A loom fitted up for cross weaving by means of beads in the harnesses. Beaming. — This is the process of putting the warp yarn upon beams. When beaming from chains it is necessary to pass the yarn through a set of reeds. With the more recent machinery for warp- ing, chains are dispensed with, consequently this precaution is now seldom necessary except for certain kinds of work. Great care must be taken to lay out the warp just right in width, to fit between the heads of the beams, unless the latter are adjustable, in which case the adjustment is a nice point often neglected. The speed while beaming should be very regular; if not, some fabrics will show the unevenness. Belt slipping is the most common cause of such unevenness in speed, and should be prevented. BeAvers. — Beavers are a class of heavy woolen goods, fine cloth face, and when made right are very nice and durable. The color is an important feature in the attractions of a beaver. Thorough fulling, cropping, boiling and gigging are points in the finish of first-class beavers, which cannot be neglected without injury. The warp should always be of sound stock, not necessarily of the long- est staple, but such as will make a strong thread without twisting too hard. The filling, while it should be soft and short stock, must endure much work on the face ; the stock used should be selected accordingly. Bedford Cord. — A ribbed cloth of great strength, commonly drab. Used very extensively for working garments in England. SPITZLI'S MANUAL. 35 Beesley's Ribbon Shuttle Motion. — An interesting chapter on Ribbon Shuttles will be found in Barlow's " History of Weaving," pp. 294, which also describes this invention thoroughly. Beir. — This term, when applied to reeds, represents a certain number of splits — most commonly twenty. Its application to yarn refers to this, 20 splits per inch, and 2 threads per split make the 40 threads called a Beir. (See rules.) Blanket. — Thomas Blanket was a famous clothier connected with the introduction of woolens into England about 1340. From him the well known name for certain woolen goods is supposed to have been taken. Blanket binding is a term sometimes heard from old men, but they disagree as to the exact texture meant. Belts. — That the arc of contact has more to do with the driving power of belts than the area, is shown by the wire rope, where the area of contact is so small as to be neglected in calculation, while a large arc of contact is absolutely necessary. Belts have a tendency to sag edgewise and to leave their proper place upon their pulleys. This is more particularly the case with belts transmitting motion between vertical shafts. When two shafts are not in parallel align- ment, the belt from one to the other will tend to work off one of the two pulleys. There are four ways of remedying this : First, by properly aligning the shafts; second, by placing unyielding guides at the edges of the belts ; third, by using special tighteners ; and fourth, by giving excessive crown to the pulleys. When belts are used to transmit motion between vertical shafts, the tendency of the belt to work off is aggravated by its own weight, and this tendency must be met in one of three ways — by throwing the shafts out of correct line, by guiding the edge of the belt, or by the use of special tighteners. Between horizontal shafts the weight of the belt trans- mitting motion tends to cause or increase adhesion. This is not the case between vertical shafts, the belts of which require to be strained by tighteners. The tighteners may be swinging or sliding, and when properly designed and made, the former should be pro- vided with an adjustment by which the pulley can be moved in the plane of its axis, and the housing piece should be pivoted so that the axis may be given an oblique position. The experiments of J. H. Cooper show that the influence of air upon the belt is simply nothing. The influence of surface upon the adhesion of a belt may be shown by a very simple experiment : Placing pulleys of different diameters in a vice, putting a piece of belting over them, loading both sides alike, and then adding weights on one side till slipping 36 SPITZLI'S MANUAL. just commences. It will be seen that on the largest pulley the slip will be least, other things being equal. One experiment of this kind spoken of in the " American Machinist," October 9, 1880, gave the following results : The pulleys used were cones, and the table below gives the distance of slips in one minute : Pulley Pulley Pulley No. 1. No. 2. No. 3. Diameter, inches 12^ g£ 7^ Distance slips in one minute, inches if If 4 Belts should be wide and long enough to do the work without being run too tight. Uneven speed from slipping belts is bad everywhere. Belts running perpendicularly have to be kept too tight to last long, unless much wider than when running horizon- tally. Belt Grease. — That a leather belt should be kept pliable with grease is not doubted, but the kind of grease and manner of apply- ing it, is a question of much controversy. The result desired is not always obtained, because the compounds used are not of a nature to produce it. A list of good compounds might be given, but only one can be tested properly at a time, and such compounds are brought to the notice of manufacturers frequently by other means. Almost every one has used several kinds, observations from which will be useful for comparison. A compound now sold by the Dixon Cruci- . ble Co., which is very good, indeed, when judiciously used, should be tried before condemning all kinds of belt grease. Belt Lace. — For fastening the ends of belts together when they cannot conveniently be lapped and cemented there is as yet no better way than to lace them with a good tough, flexible strip of leather. Rawhide is very good, excepting in places where there is much steam. There are special tannings which do much better in such places, but some kinds of metallic fastenings are preferred by many. To use lacing economically some responsible person should be entrusted with the selection of the sides, also with the cutting, which is done best by machinery; keeping a memorandum of every bunch of lacings given out will soon show by whom and where the most lacings are used, when the matter can be sifted. The greatest waste of lacings may be traced to operatives who will not use them as long, or as many times, as they might. Overseers are usually to blame for slackness in this particular; it devolves upon them to see that laces are drawn instead of cut; and if somewhat worn, or too short, that they are used in his or another department on lighter belts. The trouble is, that few men can mind trifles, when they SPITZLI'S MANUAL, $7 belong to others. Could every operative in a mill reduce the waste and loss he causes by carelessness to the lowest minimum, wages might be raised many per cent, and profits be much increased besides. The best way to lace a broad belt is by lacing a lap piece on the outside. Benzole. — Benzine, benzene, benzal, hydruret of phenyle, (C 18 H 2 ). The more volatile portion of coal naptha has been shown by Monsfield to consist chiefly of this substance. It is produced in a great number of reactions in which organic bodies are exposed to high temperatures. It may be at once obtained in a state of purity by distilling benzoic acid with excess of quick lime. (Ure's Dictionary.) Bichloride of Tin. — Double Muriate of Tin. Bichromate of Potash. — Red Chrome of Potash, Chrome. Bi- Sulphate of Copper. — Blue Vitriol, Blue Stone. Bi-Sulphuret of Iron. — Iron pyrites. Binders. — Many parts of machines or mechanisms are called binders, because they unite or hold in place certain parts, viz.: Box binders or shuttle binders keep the shuttle stationary while in the box. The threads in fabrics which unite textures or tie them down in places are as often called binders as binding threads, which see. Binding. — A word used by some in place of texture. Binding Fabrics. — Intermediate fabrics used for the purpose of binding others together. Binding Threads or Yarn.— Serving the same purpose as binding fabrics, but in a manner more independent of each other. Some effects on face fabrics are also produced by what are termed binding threads, binding yarn, yarn used for binding threads ; also for tying hanks or skeins. The yarn left in the harnesses by the weaver, for the purpose of tying or twisting to it the next warp, to be woven with said harnesses. Binding Plans. — Texture designs on chain and drawing in drafts. Bird Eye Patterns. — Formerly applied only to a particular little diamond pattern, made with four harnesses, but now applied to any similar effect, made with any number of harnesses. Bleaching is the process by which the textile filaments — cotton, flax, hemp, wool, silk, and the cloths made of them, as well as various vegetable and animal substances — are deprived of their 2$ SPITZLI'S MANUAL. natural color and rendered nearly or altogether white. For some materials the processes are very simple, but others are in themselves a science. The subject is worthy of thorough and extensive study, beginning with the chemicals and their applications. Bobbins. — Bobbins are of many shapes and kinds for the many classes of work. To describe shapes would require too much space for the allowance here. Suffice it to say that bobbins should be plenty about a factory, the place for storing them convenient, dry, and large enough so that no box need ever be heaped. From heaping boxes some bobbins fall, only to be trodden under foot or picked up and thrown in the wrong box. The wood, which wears rough, splits easily, warps, or is too soft, is not cheap at any price. The best are the cheapest. Steaming yarn on the bobbin may be necessary, but it is destructive to the latter beyond all other wear and tear. Bobbins should fit all the spindles upon which they must be used; if not, they will be split either by stuffing if too large, or abuse if too small. Boilers. — Of the many kinds of boilers used about factories, those which generate steam for power and heating are of the most importance. Boilers for yarn cloth and bleaching are known by more common names. Boilers (Land) should be set at an inclination of .5 inch in 10 feet. Grates (Coal). — They should have a superficial area of 1 square foot for every 15 pounds of coal required to be consumed per hour, at a rapid rate of combustion, and they should be set at an inclination toward the bridge wall of 1 inch in every foot of length. When, however, the rate of combustion is not high, in consequence of the low velocity of the draught of the furnace, or the fuel being insuf- ficient, this proportion must be increased to 1 square foot for every 12 pounds of fuel. With Wood as the fuel, their area should be 1.25 to 1.4 that for coal. The width of the bars should be the least practicable, and the spaces between them from .5 to .75 of an inch, according to the fuel used. Ash-pit. — The transverse area of it, for a like combustion of 15 pounds of coal per hour, should be .25 the area of the grate surface for bituminous coal, and .33 for anthracite. The velocity of the current of air entering an ash-pit may be estimated at 12 feet per second. Furnace or Chamber (Coal). — The volume of it should be from 2.75 to 3 cubic feet for every square foot of its grate surface. SPITZLI'S MANUAL. 39 ( Wood.) The volume should be 4.6 to 5 cubic feet. Combustion is the most complete with firing or charges at intervals of from 15 to 20 minutes. The volume of air and smoke for each cubic foot of water converted into steam is from coal 1780 to 1950 cubic feet, and for wood 3900. Bridge-wall (Flue boilers). — The cross section of the flues or tubes should have an area of 1.7 to 2 square inches for each pound of coal consumed per hour, or from 22.5 to 26 square inches for each square foot of grate, for a combustion of 13 pounds of coal per hour ; the difference in the area depending upon the character of the conformation of the section of, and the length of the passage of the gases ; the area being inversely with the diameter, and directly as the length of the flues, tubes or spaces between them. Thus, in Horizontal tubular boilers, the area should be increased to 27.5 and 31 square inches; in Vertical tubular, to 32.5 and 36 square inches ; and when a Blast is used, the area may be decreased to 15.5 and and 20.5 square inches. The temperature of a furnace is about 1000 , and the volume of air required for the combustion of 1 pound of bituminous coal, together with the products of combustion, is 154.81 cubic feet, which, when exposed to the above temperature, makes the volume of heated air at the bridge wall from 450 to 470 cubic feet for each pound of coal consumed upon the grates. Hence, at a velocity of the draught of about 36 feet per second, the area over a bridge wall, required to admit of this volume being passed off in an hour, would be .5 of a square inch, but in practice it should be 2 square inches. When 13 pounds of coal per hour are consumed upon a square foot of grate, 13x2=26 square inches are required, and in this proportion for other quantities^ The tempera- ture of the heated air at the end of the flues should be about 500 , and their area, and that of the base of the chimney, should be .75 of that over the bridge wall, or 1.5 square inches for each pound ot coal consumed per hour. When the area of the flues is determined upon, and the area over the bridge wall is required, it should be taken at from .7 to .8 the area of the lower flues for a natural draught, and from .5 to .6 for a blast. Flues. — Their area should decrease with their length, but not in proportion with the reduction of the temperature of the heated air, their area at their termination being from .7 to .8 that of their calorimeter or area immediately at the bridge wall. Large flues absorb more heat than small, as both the volume and intensity of the heat is greater with equal surfaces. The temperature of the base of the chimney, or the termination of the flues or tubes, is esti- 40 SPITZLI'S MANUAL. mated at 500 ; and the base of the chimney, or the calorimeter, should have an area of 1.33 square inches for every pound of coal consumed per hour. With tubes of small diameter, compared to their length, this proportion may be reduced to 1 inch. The admission of air behind a bridge wall increases the temperature of the gases, but it must be at a point where their temperature is not below 800 . Evaporation. — One square foot of grate surface, at a combustion of 13 pounds of coal per hour, will evaporate 2 cubic feet of salt water per hour. A square foot of heating surface, at the above combustion of fuel, will evaporate from 4.33 to 5.33 pounds of salt water per hour; and at a combustion of 40 pounds of coal per hour (as upon the Western rivers of the United States), from 10 to 11 pounds of fresh water, exclusive of that lost by blowing out from the boilers. Twelve to 15 square feet of surface will evaporate 1 cubic foot of salt water per hour at a combustion of 13 pounds of coal per hour per square foot of grate. The relative evaporating powers of iron, brass and copper are as 1, 1.25 and 1.56. Water Surface. — At low evaporations, 3 square feet are required for each square foot of grate surface, and at high evaporation 4 to 5 square feet. To compute the heating and grate surface required for a given evaporation, or volume of cylinder and revolutions : Operation. — Reduce the evaporation to the required volume of cylinder, number of revolutions of engine, pressure of steam and point of cutting off; then reduce these results to the range of con- sumption of fue"l per square foot of grate, pressure of steam, and number of revolutions given for the several cases at pp. 593 and 594, in Haswell's Engineers' and Mechanics' Handbook, and multi- ply them by the units given for the surfaces required. (Note. — The work just referred to should be in every manager's possession.) Illustration. — There is required an evaporation of 492.24 cubic feet of salt water per hour, under a pressure of steam of 17.3 pounds per square inch, stroke of engine 10 feet, cutting off at \ stroke, revolutions 15 per minute, and consumption of fuel (coal) 13 pounds yer square foot of grate per hour, in a marine boiler hav- ing internal furnaces and vertical tubes. SPITZLI'S MANUAL. 41 Volume of steam at this pressure compared with water, 833. 492.24 x 833-^60 =6833.93 cubic feet of cylinder per minute. 6833.93-7-15 X 2 = 227.79 cubic feet of cylinder at half stroke. 22779x17.3 Then =197.04 cubic feet at 17.3 lbs. pressure, and 20 197.04 x 15 =147.78, which x 66, the unit for heating surface for a 20 vertical tubular boiler at 20 lbs. pressure and 20 revolutions = 9753. 48 square feet. And 147.78 X2 = the unit for grate under like condition=295.56 square feet. To compute the consumption of fuel in the furnace of a boiler. The dimensions of the cylinder, the pressure of the steam, the point of cutting off, the revolutions, and the evaporation of the boilers per pound of fuel per minute being given : Rule. — Ascertain the volume of water expended in steam, and multiply it by the weight of a cubic foot of the water used ; divide the product by the evaporating power of the fuel in the boiler under computation in pounds of water, and add thereto the loss per cent, by blowing off. Boiler Plates and Bolts. — Tensile strength of wrought iron plates and bolts ranges from 45,500 to 62,500 pounds per square inch for plates, 59,000 for English bolts, and 65,000 for American, being increased when subjected to a moderate temperature. The mean tensile strength of steel plates and bolts ranges from 80,000 to 96,000 pounds. Kirkaldy gives 85,966 as a mean. Bursting and Collapsing Pressures. — The computation for plates and bolts should be based, so far as may be practicable, upon their exact tensile strength. Whenever, then, the strength of plates is ascertained, there should be deducted therefrom one-half for single riveting and three-tenths for double riveting, and the remainder divided by a factor of safety of three. When the exact strength can not be ascertained, a factor of six should be used both for plates and bolts. The resistance to collapse of a flue or tube is much less than the resistance to bursting ; the ratio can not well be determined, as the resistance of a flue decreases with its length, or that of its courses. With an ordinary cylindrical boiler, 4 feet in diameter, single riveted, 20 feet in length, with flues 15! inches in diameter, shell T % thick, flues \ inch, the relative strength are : Bursting, 350 pounds; collapsing, 152 pounds. — Haswell. 42 SPITZLI'S MANUAL. Heating Feed- Water. — As some doubts seem to exist among steam users about the advantages of heating the feed water, it might be appropriate to give a few figures about the economy to be obtained thereby. To heat a pound of water from zero to the boil- ing point, and convert it into steam at a certain pressure, a certain amount of heat has to be imparted to it. A " unit of heat " is the amount necessary to raise one pound of water one degree in tem- perature. Then At 15 pounds above atmosphere 1191 units are necessary. " 30 " " 1198 " " " 45 " " 1203 " " 60 " " 1208 " " " 75 •> " 1212 " " 90 " " 1214 " Taking 1,200 as an average, and assuming the average natural temperature of water at about 50 , we have to impart 1 150 units of heat to every pound of water to convert it into steam. A feed- water heater will thus, for every ioo° the feed-water is raised in temperature, effect a saving of 100 x 100 = 8.7 per cent.; 1150 the greatest economy would be attained if the feed could be heated to the boiling point. Taking the latter at 21 2", the gain would then be (212 — 50) x 100 = 14 per cent. 1150 In condensing engines the feed-water is taken from the hot well, which generally is kept at i2o°to 130 , as a higher temperature would impair the vacuum, and thus neutralize what is gained by a higher temperature of feed. In some marine engines the feed-water has been heated to a higher degree by taking it from the hot well into the top of the condenser, or around and through the exhaust pipe, to expose it to the steam coming out of the cylinder, before it is condensed. Considerable gain has been claimed by inventors of these plans, but as they have not been adopted to any extent it may be doubted whether their advantage is universally acknowledged. For stationary condensing engines the so-called economizers have found extensive application ; they consist of coils or rows of tubes, located in the back flue of the boiler; the feed-water is forced through them, and can thus be heated to very near the boiling point. Some of these were shown in the British section, in the SPITZLI'S MANUAL. 43 southeast corner of Machinery Hall, in the Centennial Exhibition, and very elaborate and costly structures they were. Their vertical tubes had a slow-moving set of scraping rings around them, to keep them from any soot that might impair their conductive power. Taking the temperature of the hot well at 120 , and assuming that the feed is heated to 200, the gain would be (200 — 120) X 100 = 7.4 per cent. 1200 — 120 For non-condensing engines, where the feed would have to be raised from 50, the gain would be (200 — 50) x 100 = 13 per cent. 1200 — so For non-condensing engines the simplest way to heat the feed is by the exhaust from the cylinder, either passing it into the feed- water tank, which is done in locomotives sometimes, or by forcing the feed-water through a coil of pipes surrounded by the exhaust steam. Or the feed, in its way to the boiler, is forced through a cylindrical vessel, and the exhaust steam conducted through it in small tubes, after the manner of a surface condenser. If these arrangements are provided with sufficient heating surface, the feed may be heated to 180 or 200 , but care should be taken to provide ample and unobstructed passage to the exhaust, so as not to in- crease the back pressure, for if the latter is only one pound per square inch higher, the loss, especially where the steam is greatly expanded, may come very near the gain by feed-heating. In a Corliss engine, working with sixty pounds pressure, cutting off at T Vth, the mean pressure is about 14^ pounds per square inch ; if the back pressure is raised one pound, the mean pressure would only be 13^, showing a loss of /I X IOOv ( ) = 7 per cent. The cost of heating the feed is represented by the interest on the first cost of the heater and its cost of maintenance, and will vary somewhat according to construction, etc. On an average the net gain by heating the feed may be assumed as about five per cent. ■ for condensing, and ten per cent, for non-condensing engines. — By J. Haug, M.E., in Polytechnic Review. Boiling. — Boiling goods to produce lustre is a common necessity, but it is not always best to boil ; a gentle steeping may serve the purpose better and prove less injurious to the material. The false 44 SPITZLI'S MANUAL. impression that the liquor is not doing the work unless greatly agitated, prevails, but not so extensively as twenty years ago. The secret of success is frequently in the rolling, the exposure, gradual cooling or in the nature and character of the fabric. When woolen goods have been excessively boiled, exposed to great heat, or cooled too suddenly, they are invariably made harsh. When the machine which rolls the goods is not powerful enough to draw the goods quite steadily, with the utmost strain necessary, look out for water marks. If the goods are not clean when boiled, clouds and dark edges may show themselves. If the colors in the goods are not fast they will sometimes be less so after boiling for lustre. Bois Rouge. — See Camwood. Bombazine. — (Bonibazet, Bombazette, Bombazine, Bombasine?) — A sort of thin woolen cloth. Bumbazeen. n. [Fr., bombasin and basin; Sp., bombasi ; It., bambagno ; Lat., bombacinium, bomba- cinium, from Lat. bombycinus of silk or cotton. Bombycinum, a silk or cotton texture from Bombyt. Gr., Bou-By silk, cotton ; It., bombazio.] A twilled fabric, of which the warp is silk and the weft worsted ; formerly black, for mourning garments, but now made of various colors. [Sometimes spelled bombasin.] — Tomlinson. Bombazine was first made at Norwich, England, in 1875. Bonchon, M. — M. Bonchon, in 1725, (twenty-seven years before the birth of Jacquard,) employed a band of pierced paper, pressed by a hand-bar against a row of horizontal wires, so as to push for- ward those which happened to be opposite the blank spaces, thus bringing the loops at the lower extremity of vertical wires in con- nection with a comb-like rack below, etc. It will thus be seen that Jacquard was not the inventor of the first principles of the kind of. looms now known the world over by his name. Books. — The books required by the designer are few and simple ; but large, must be thoroughly made, and are therefore expensive. The principal ones are design, pattern and record books. Books of instruction should perhaps be included, as no designer can now afford to refrain from much reading on subjects kindred to his call- ing. {For description, see Design Books, Pattern Books, Record Books and Books of Instruction.) The different kinds of books should be procured uniform in size if possible ; this is a saving in shelf room, and adds much to the appearance of a library of this kind, great or small. Design Books should be gotten up to suit the designs to be recorded, the paper very heavy and binding first-class. SPITZ LI'S MANUAL. 45 Pattern books can be got very cheap, but it is not economy to buy such ; they have to be replaced too often, look bad and are gener- ally unsatisfactory. The records are simple, and may be like the regular account books known by that name, of a size to match the others. Books of Instruction are expensive, but a necessity, acknowledged more and more every day. Book of Ties. — To be able to apply any given pattern to the looms was formerly considered as being one of the " mysteries" of weaving, for the weaver was expected to tie up or arrange his loom to produce satins, twills, spots and small figures. He was accord- ingly provided with various diagrams or plans, showing him how to do so : and if he was a careful man, he would have a number of the most prevailing patterns drawn in his " Book of Ties," which was the name given to the memorandum book for that purpose. A cen- tury ago there were in this country no printed works on weaving ; therefore, it may be interesting to describe a fair specimen of a weaver's pocketbook of that period, for it is questionable whether many of them remain in existence at the present time. A book of this kind is now before us ; it is an ordinary long-shaped pocket- book, and contains about eighty different " ties " or patterns clearly drawn ; each pattern has its particular name, such as " bird's eye or diamond handkerchief," "twelve lam diaper," "Barcelona twill," " Florentine," " Long cut velvet," " shamrock gauze," " rocktabby," "velveret," " wild-worm-warp-away," and other curious names, for weavers centuries ago were perfectly aware of the effect of a new name. — Barlow. Books of Instruction. — There is no question more frequently asked by beginners than " Which is the best book for me to get ?" •The fact is that many are apt to expect too much of a book. In these days it is no longer possible for even the most advanced to hold his vantage ground without much reading; but he who thinks to post himself entirely from books, or he who otherwise places too much dependence upon rules and precepts which cannot be otherwise than arbitrary, must fail. A beginner should get some experienced person to pick out a plain, simple book on some par- ticular branch to begin with ; this will prepare him for more difficult work; finally standard works treating in general upon sub- jects kindred to his special branch will afford most profitable read- ing. We advise a beginner to purchase this manual first, because the price is reasonable and much aid may be derived from it ; the selection of other works is also made easy. Ashton, Langewald, 46 SPITZLI'S MANUAL. " Ashenhurst, Barlow, Chevreul, on colors, procured in the order mentioned, if not altogether, is money well spent. Ashton treats elementary points very satisfactorily to the beginner. Langewald supplies the largest collection of chain drafts and tables convenient in a woolen mill. Ashenhurst's work is very instructive to any one who has had a little start. Barlow is very interesting and important to those who wish general knowledge of weaving and its history. Borate of Soda. — Borax. Borax. — Biborate of soda; a salt formed by a combination of boracic acid with soda. It was originally obtained from a lake in Thibet, and was sent to Europe under the name of tincal. It is of a white color or sometimes grayish, or with a shade of blue or green. Bord or Burda. — A striped cloth. Burd Alisaunder, the oldest known design for any textile fabric. Bow. — A device on the point of a shuttle to separate the shed. Used when the warp threads are inclined to stick together. It is usually made of horse hair or very fine wire. Bowed Gorgia Cotton. — " Bowed Gorgia" takes its name from a mode of cleaning which has long been in disuse. This operation was performed by means of a bow-string, which being raised by the hand, and suddenly released, struck upon the cotton with consider- able force, and thereby served both to separate the gins and to open the cotton, rendering it more fit for the processes which followed. " It has long since been abandoned for other and more rapid methods of cleaning." — (Baird.) What is now called " Bowed Gorgia " has been cleaned by a machine called a saw-gin. Boxes. — Shuttle boxes on looms are often troublesome, because supported by a crooked spindle. The position in relation to the race board, when the shuttle is to pass in or out, is of great import- ance, and varies on looms of different construction sometimes to the extent of ^ inch. Some weavers claim that a box should never be level, but aim downwards a little ; the advantages claimed for this mode of setting are that it keeps the shuttle from flying out, and catches the shuttle gradually on its coming in. This theory is not accepted by others who are equally successful. Timing the motion of the boxes is a nice point, but carelessly done by a large propor- tion of loom fixers. The cleanliness of boxes should be scrupulously attended to. Box Motion. — The mechanism on looms for raising and lowering SPITZLI'S MANUAL. 47 the shuttle boxes is an important part of the whole. This has led to many inventions, some good, others almost worthless, and many which conflict with each other in claims of inventors. The very motion that we would recommend is in controversy. Bow Cords. — The term used to designate the cords between the raising lever or couper, and the harness or leaf of certain kinds of hand looms. Brazil Woods. — There are several varieties of this wood, which are distinguished from each other by the name of the place where they are obtained — Pernambuco, Japan, Hypernic wood, Nicaragua, etc., and they all give a handsome red ; and in relation to dyeing, may be considered as only different names for dyestuffs producing similar coloring effect, and only differing in some little particulars. In the dyehouse they are often all called peachwood. The wood known in commerce as Pernambuco is most esteemed, and has the greatest quantity of coloring matter. The kind termed Hypernic or Lima wood is the same in quality. A decoction of Lima wood presents a rich crimson color, which acids and acidulous salts will change to orange, and alkalies turn to purple. The salts of potash, soda and ammonia change the solution into a rose color, which soon passes away by standing. Solutions of tin throw down a bright red colored lake, and alum precipitates slowly a bright and clear red. Nicaragua or peachwood (sometimes called Santa Matha wood) is much used in the dyehouse, and for many shades of red is pre- ferred, although the coloring matter is not so great. It gives a bright dye. It is better adapted to coloring reds than Lima wood, and this latter is better for garnets, rubies, maroons, etc., on ac- count of its deep crimson-colored solution. But all the colors obtained from any of these woods are of a fugitive nature, losing their brilliancy by exposure to the air. The sun has a very pow- erful influence upon colors dyed by these woods. By a short ex- posure the red color assumes a blackish tint, passes into a brown, and fades away into a light dun color. The best preparations for reds from these woods is alum and tartar — the tartar about one- eighth the weight of alum. The best temperature to commence dyeing these colors is about 180 , and bring up to a boil as soon as possible, and boil no longer than to get the shade required. Brushes. — The brushes needed by a designer are two in num- ber — ne of the best bristle clothes brushes for brushing samples, not too large or stiff, not too limber ; also, a small brush for clear- ing the projecting threads when dissecting. Factory brushes are 48 SPITZLFS MANUAL. more numerous in kinds, for brushing cloth, gigg slats, warps, etc., etc.; also for dabbing the stock into the circles on combs and other like work. The very best brush bristles are cheapest. Brocade. — A cloth with figures woven with gold or silver threads. Brush Wheels. — In light machinery, wheels are sometimes made to turn each other by means of bristles fixed in their circumference ; these are called brush wheels. The term is sometimes applied to wheels which move by their friction only. — (Ure's Dictionary.) Bungoes. — A peculiar kind of shawls first made at Strathbungo near Glasgow, Scotland. Sometimes applied to other fabrics sup- posed to resemble the texture and character of these shawls. Brussels Carpet. — Brussels and other pile carpets are made upon the same principle as velvet, but generally the pile is not cut, consequently round wires are used instead of grooved ones, and they are drawn out from the sides of the cloth. There are two descriptions of Brussels, one in which the pile threads have the pattern printed upon them previous to weaving, and the other in which the threads are used dyed in separate colors. The first kind is known as tapestry carpets, patented in 1832, by Mr. Whytock of Edinburgh, and forms a comparatively simple and cheap manufac- ture when compared to Brussels carpets. Buckram. — A coarse linen cloth stiffened with glue, named from buco, a hole, or from Bokkara. Burel. — A coarse stuff used during the thirteenth century. c. Calcium. — The metallic base of lime. Calculations. — Mathematical calculations are numerous in and about the factory. Those which fall to the designers' lot frequently include estimates of cost, as well as quantity of yarn and stock needed for separate orders. Many of the more important calcula- tions are treated in other parts for the sake of clear connections. To be methodical in all things should be the aim of all, designers in particular; it is a useful as well as commendable virtue. To give the necessary methods for all factory calculations would require a large volume, and the best would be incomplete. The better way is to supply, in the proper places, elementary rules, and urge every SPITZLI'S MANUAL. 49 one to reduce all their calculations to a systematic method ; to decide on some good way to proceed for the various kinds of mathe- matical problems which come up frequently, and make use of such method until it can be abandoned for a better one in earnest; never employ too many ways to solve the same kind of problems. It is well to know several ways, as they may be used for proving work, but an unmethodical use of such knowledge is demoralizing. Most of the examples given in this work will be found w'ith the rules. The impossibility to collect even in small districts of England statements of any number which agree, on the subject of mathemati- cal terms and methods in textile calculations, on account of the great diversity of methods employed, verifies the preceding remarks. (See Barlow and Ashenhurst.) The latter is quoted as good author- ity, and to show how utterly impossible it is to create order out of the chaos existing in some districts, the quotation is in another part in connection with "Yarn Counts or Numbers." Calico Printing is the art of producing a pattern on cotton cloth by printing in colors, or mordants, which become colors when subsequently dyed. Calico derives its name from Calicut, a town in India formerly celebrated for its manufactures of cotton cloth, and where calico was also printed. Other fabrics than cotton are now printed by similar means, viz., linen, silk, wool and mixtures of wool and cotton. Linen was formerly the principal fabric printed, but since modern improvements have produced cotton cloth at a comparatively cheap rate linen fabrics are now sparingly used for printing, and then principally for handkerchiefs, linen cloth not producing such beautiful colors, in consequence of the small affinity of flax for mordants or coloring matters. Silk printing also is chiefly confined to handkerchiefs, but the printing of woolen fabrics or mousseline delaines is an important branch of the, art. (Ure's Dictionary.) Cambric. — A cotton cloth. No doubt the name is derived from Cambray. Callenders. — Callenders are machines with two or more cylin- ders, now generally heated by steam, used in some of the finishing processes ; also by the calico printers to prepare the surface of the goods. The complete and perfect callender is a large and expen- sive machine, and may be much modified for certain fabrics. It is always best, however, to have one so fitted that it may be worked with any degree of pressure between the rolls, from that which simply insures regular contact to that which will produce a glaze on 4 5o SPITZLI'S MANUAL almost any fabric. A very good use for callenders, but by no means common, is that made of it by a few manufacturers of worsted goods of the heavier classes. After pressing it is necessary to take off the glaze with steam ; if the goods are immediately dried on a callender after this steaming, all firmness given the goods by press- ing remains; if not, the moisture gradually penetrates the goods and an undesirable result is the consequence. Camwood. — This is another species of the red woods, and grows in Sierra Leone and those countries adjacent to the Bight of Benin. Its chemical properties and nature are very similar to barwood and sanders, being called by botanists bois range. It contains more coloring principle, and the color is more permanent than sanders or barwood. It comes to the dyer in a ground state, same as barwood and sanders. The precipitates from a solution of this wood are of a more yellow cast, which explains why the colors dyed by it are so much more intense and rich than colors from the other red woods, its color being more of a decided red. It is more extensively used in woolen dyeing than either of the other red woods, for the reasons given above. It will give a permanent color either with or without a mordant. Camwood gives out its color with great reluctance, but by taking the plan laid down for barwood and adding to the color-bath one-half ounce of soda-ash (Na 2 C0 3 ) for every twelve pounds of camwood used, just as the wool is to be entered for coloring, will make a great difference in the quantity of color obtained, and the wool will not feel so harsh, but will work more open than if the soda-ash had not been used. Camwood naturally gives a harsh feeling to wool, but not so much so as san- ders. Reagents give the following results : Sulphate of iron (FeS0 4 ) gives a plum color; muriate of tin (ShCl 2 ) gives a bright carmine-red f color; sulphate of copper (CuS0 4 ) gives a handsome looking claret ; alum (A1SO) gives the solution a beautiful red color ; acetate of copper (IC 4 3 H 3 2Cu) gives a light reddish brown; nitrate of iron (3No 8 2Fe) gives a reddish brown. None of the salts of lime seem to produce desirable results upon it as a mor- dant. The sulphate of copper (blue vitriol) gives the best results, or effects, upon the color of this wood, and appears to be the most effectual mordant for it, especially if using it for browns. — Gibson. A light bath of camwood before dyeing prevents wool from felting somewhat. Cards. — This term has many meanings in the textile world. We card cotton and wool with cards. The patterns on Jacquards and SPITZLI'S MANUAL, 5 I some other looms are produced by the pattern cards. We have pattern cards for another purpose also; upon these we paste samples of goods. Railroad cards are simply from six to twelve cotton cards connected by what are termed railroads ; these are a trough in which a strap carries the slivers from all the cards to a series of rollers ; the slivers are delivered into a can, after passing through the rollers. These devices for saving labor are of great value as they make better work by more doubling. Carding. — The carding of stock is very important. What can be learned from books should be studiously sought ; but experi- ence is indispensable to any one who is to have charge of the pro- cess. There are many good books to be had, and, unlike works on weaving, most of them are sold at very low prices. Leroux's re- marks on this subject are very valuable. Baird in his work on cotton manufacture says : "Cards are used to disentangle the fibres of cotton, and lay them lengthwise and parallel with each other. Carding consists in the reversed action of two opposite surfaces, which are studded with angled wire hooks. These hooks must be made of good, hard- drawn iron wire, to render them stiff and elastic. In former years, cards were merely made of small straight boards, studded with sharp wire points, and having handles ; these were operated by hand : now, they are encased cylinders, driven by steam or water power. These machines consist of one large, and often of many small cylinders. If the large cylinder is partially surrounded by small cylinders, the card is intended for coarse yarn, or coarse wool or cotton ; if it contains but one or two small cylinders, it is used for fine cotton and fine yarn. This machine receives the coil of lap from the spreading-machine, which is as wide as the card, and forms it into a lamina, in which the fibres of cotton are more or less parallel, according to the work. Coarse yarn requires the cotton to be carded but once ; but, for fine yarn, it is necessary to repeat the operation." Carpets. — Carpets are no longer a luxury enjoyed by the wealthy alone, their use has become so general that many kinds are now needed to meet the varied demands. These kinds or classes are so commonly known by their names that it is quite needless to enumerate them. It would be quite as unsatisfactory to consider each as briefly as space here would require. The fact is, an exhaustive work on the manufacture of carpets is greatly needed, so much so that anything short of it will not be acceptable. The subject is 52 SPITZLI'S MANUAL. pretty extensively treated by Barlow, and many illustrations make this part of the work quite instructive to those who are making the methods of producing textile fabrics a general study. Ashenhurst is also thorough in the chapters devoted to carpets, but has not made use of illustrations so profusely as Barlow. Cashmere or Cachemere. — The genuine fabrics of this class, at one time the only goods sold under this name, were formerly pro- duced in the Kingdom of Cashmere. They are now made to greater perfection in Europe. The material of the cashmere shawls is the downy wool found on parts of the Thibet goat (only a small percent- age of their coats by weight). The Oriental Cashmere shawls are the results of extremely slow weaving processes. The Jacquard loom produces better goods at much less cost. Cassimeres or Kersimeres. — Almost any woolen cloth that has not for some special reason another name is conveniently classed- among cassimeres by the trade. Really this class of goods includes only plain and fancy cassimeres, both being woolen goods that have been milled — the difference between the plain and fancy being in the appearance. Plain cassimeres may be made of any texture which will look smooth and plain on the face ; even twills are classed in this line, when not too large ; diagonals can not be. This class must also be of one color or mixture only. When more than one color, large or fancy diagonals, or otherwise fancy effects or textures are used, the goods are properly fancy cassimeres. " Cotton warp fancy cassimeres " is a trade name to pass off fancy effects of a cheaper grade (made as the name implies in part of cotton), for which there is no more appropriate name in common use. Some " Union cassimeres " are of this order. Catechu. — " This is another substance containing a great deal of tannin or astringent principle. It is a dry extract, prepared from the wood of a sensitive plant called Terra Japonica. It grows in the mountainous districts of Hindostan. Catechu is dark brown or chocolate color, with an astringent taste, but no odor or smell. It contains about 50 per cent, of tannin principle ; gum, 8 ; extractive matter, 35 ; impurities, 7 :=ioo. Proto-sulphate of Iron gives olive brown precipitates. Chloride of Tin and Bi-sulphate of Copper gives yellowish brown precipitates. Bichromate of Potash gives a deep, rich, red brown precipitate. There are different qualities as well as kinds of catechu in the market. The Bombay comes to us in square masses, of a reddish SPITZLI'S MANUAL. 53 brown color. Its composition is: Tannin, 50; extractive matter, 35; gum, 8; impurities, 71 = 100. The Bengal catechu is found in market in flattish round lumps. The outside cqlor is a light brown ; the inside, dark brown. Its composition is : Tannin, 48.9 ; extractive matter, 37.0; gum, 7.5; impurities, 6.6: = ioo. The Malabar catechu we receive in large masses. The. color is of a light brown outside, but dark colored inside, and covered with leaves. Its composition is : Tannin, 45.3 ; extractive matter, 39.5 ; gum, 8.5 ; impurities, 6.7 : = ioo. Catechu is adulterated with sand, clay and ochre. The adultera- tion can be easily detected by dissolving some of it in water, and these impurities will settle, as good catechu is all soluble in water, and gives a clear solution, of a beautiful reddish brown color, which acids will brighten and alkalies darken, and the shade deepen by standing. The tannin that is contained in catechu is not so easily converted by exposure into gallic acid as nutgalls are, but is sub- ject to oxidation. When catechu is oxidized, there is a formation of an acid nearly like that of gallic acid ; but this acid is only formed when a solution of catechu is treated with an alkaline matter. Catechu is now used in almost all the compound colors on raw cotton and cotton yarns — blacks, browns, drabs, fawns and greens; and its permanency causes it to be of such high estimation in the coloring of raw cotton at the present time." — Gibson. Chenille Weft. — To produce an imitation of pile or velvet goods chenille weft or- filling serves well. It is made by weaving a fabric that may be cut into narrow strips, the raw edges of which when twisted afford the projecting fibers. To make the strips fine or narrow it is necessary to cross-weave them ; this binds the short pieces of threads more firmly. Elegant shawls, cloakings, carpets and robes are made with this filling. There are looms built especially for weaving many kinds of chenille weft. Chloride of Calcium. — Lime and muriatic acid. Chinchilla. — These goods are used for cloaks and sometimes for overcoatings. It may be presumed that some fabric of this class at one time had some resemblance to the fur of an animal by this name, but few of the goods now sold under it can be said to retain the resemblance. Chinchilla goods must be of stock and texture to permit a long full nap. The disposal of the nap varies. Some kinds are curled, others are made wavy, yet others straight, etc., etc. The whipping machine is a necessity in the finishing of these goods, 54 SPITZLI'S MANUAL. Circles. — Circular Swivels or Lappets and Circular Shuttle Boxes are subjects described by Barlow and many other writers on looms and weaving. To write understandingly about them requires the use of illustrations and considerable space. Comb circles are more easily described. They consist of a brass or composition base, in circular form to fit the combing machines, from \ inch to f inch in thickness, according to the work they are intended for. Through this base pins are driven in rows, the size of the pins, shape and their number also depends on the kind of work. The pins should not be too soft or too hard, as hooked points or broken pins make bad work. Neither should the pins be set any closer together than is absolutely necessary to clear the wool. When close set, the stock must be fed very light or the dabbing brush will not be sufficient to force it between the pins. Cloth. — The word cloth is frequently used instead of fabric, erroneously. <\lmost any textile fabric may be cloth, but the more common use of the word is for heavier goods, and particularly those made of wool, like broadcloth, beavers, etc., etc. Cloth Finish is a term used to designate that finish on woolens similar to broadcloth. Cochineal. — " This is a small insect, called coccus cacti. It is a native of those parts of South America bordering on the Gulf of Mexico, of St. Domingo, Cuba and several other of the West India Islands, in which places it is sometimes found wild." It produces the finest known shades of crimson, red, scarlet, etc., for woolen or silk. Some cultivators use steam for killing the insect, and the different appearances of the cochineal are caused by the different modes of killing the insect. The best sorts are those that appear as if dusted with white powder, and are of a slate color ; but this appearance is not a sure criterion to go by, as the dealers very often dust the cochineal with powdered talc, to deceive the purchaser. There are two kinds of cochineal, the silver and the black cochi- neal. The latter, as a general rule, is inferred to be the most valu- able, but this is a nice distinction, and only holds good when the two kinds present the same specific resemblance, for a bold, clear silver is preferable to a black of opposite appearance. In making choice of cochineal, you must observe that each grain exhibits a bright, free, clear, bold and large appearance; whether the whole mass be free from dust or small abraded parts of the insect, or matters SPITZLI'S MANUAL. 55 foreign to its nature; and whether a quantity of it has a certain weight or specific gravity, which any person much accustomed to testing weights can distinguish with the greatest nicety. Cochineal is the richest in coloring principle of all the known dyestuffs, having 50 per cent, of pure crystalizable coloring principle; its clear and filtered solution, with the different mordants or mineral salts, etc., also in solution, present the following results : Tannin does not throw down any precipitate. Boracic acid does not change the color, but rather reddens it more. Nitrate and nitro-muriate of per-oxide of iron precipitates a chocolate colored lake, the nitro-muriate the brightest. Bi-sulphate of copper, a red purple deposit, a portion of the color remains in solution. Potash, Soda and Ammonia change it to a crimson violet. Protoxides of Tin produce the same effect. Per-oxide of Tin changes it to a yellowish red. Chlorine turns it yellow. Sulphate of magnesia, no precipitate, the solution unaffected. Lime gives scanty precipitates of a violet or deep lilac color. Oxalic acid turns the solution orange color. Citric acid similar effects, but of a redder hue. Super-tartrate of potash brightens up the solution, causing it to assume a fine scarlet color, and a slight precipitate falls of a red color. Super-oxalate of potash produces more decided effects of the same character as the preceding. Alum gives the liquor a fine crimson appearance and a moderate precipitate of the same color takes place, the liquor still retaining considerable coloring matter, which a solution of nitro-muriate of tin precipitates of a more decided scarlet, leaving the liquor of a pale fawn color." — Gibson. Color. — In many fabrics the colors are quite as important as the texture, consequently' it behooves the designer to acquire a thor- ough knowledge of the laws which govern their harmony. This can be done only when the nature of colors is thoroughly compre- hended. The whole combined is a science of which Ashenhurst says : " The science of color teaches the nature and causes of colors, their distinctions, their relations to each other, their classifi- cation, the mental effects that attend them, and the causes and laws of harmony. It also includes the modifications of colors arising 56 SPITZLI'S MANUAL. " from varying sensibility of the eye, and the peculiarities of color vision which are found to exist in different individuals."- So important is the science that it would be folly to undertake a brief lucidation of it, consequently the reader is referred to " Chevreul on Color," a work of the highest merit, and one which cannot fail to interest any one who has the real requisites of a designer. The harmony of colors, the influence of one color over another when placed in close proximity to each other, are subjects which can only be really understood after much preparatory study. For any one who cannot at once interest himself in so thorough a work as Chevreul's we recommend the concluding chapter of Ashenhurst's work on " Weaving and Designing " — a brief and lucid description of the science of color and very important suggestions as to their application in textile fabrics. The following remarks from Chris- topher Dresser, may aid some beginners who have other necessary expenses to meet at present and must defer the purchase of the books mentioned : " There are few objects'to which color may not be applied, and many articles which are now colorless might be colored with advantage. Our reasons for applying color to objects are twofold, and here, in fact, we see its true use. First, Color lends to objects a new charm — a charm which they would not possess if without it ; and, second, Color assists in the separation of objects and parts of objects, and thus gives assistance to form. These, then, are the two objects of color. Mark, first, it is to bestow on objects a charm, such as they could not have in its absence. In the hands of the man of knowledge it will do so — it will make an object lovely or lovable, but the mere application of color will not do this. Color may be so applied to objects as to render them infinitely more ugly than they were without it. Knowledge will enable us to transmute base materials into works of marvelous beauty, worth their weight in gold. Knowledge, then, is the true philosopher's stone ; for, we may almost say, if possessed by the artist, it does enable him to transmute the baser metals into gold. But a little knowledge will not do this. In order that we produce true beauty, we require much knowledge, and this can only be got by constant and diligent labor, as I have before said ; but the end to be gained is worth the plodding toil. The second object of color is that of assisting in the separation of form. If objects are placed near to one another, and these objects are all of the same color, the beholder will have much more difficulty in seeing the boundaries or terminations of each than he would were they vari- ously colored; he would have to come nearer to them in order to spitzli's Manual. 57 see the limits of each, were all colored in the same manner, than he would were they variously colored : thus color assists in the separa- tion of form. This quality which color has of separating forms is often lost sight of, and much confusion thereby results. Color is the means by which we render form apparent. Colors : when placed together, can only please and satisfy the educated when com- bined harmoniously, or according to the laws of harmony. What, then, are the laws which govern the arrangement of colors ? and how are they to be applied ? We shall endeavor to answer these questions by making a series of statements in axiomatic form, and then we shall enlarge upon these propositions. General Considerations. — 1. Regarded from an art point of view, there are but three colors — i. e., blue, red and yellow. 2. Blue, red and yellow have been termed primary colors ; they cannot be formed by the admixture of any other colors. 3. All colors, other than blue, red and yellow result from the ad- mixture of the primary colors. 4. By the admixture of blue and red, purple is formed ; by the admixture of red and yellow, orange is formed ; and by the admix- ture of yellow and blue, green is formed. 5. Colors resulting from the admixture of two primary colors are termed secondary : hence purple, orange and green are secondary colors. 6. By the admixture of two secondary colors a tertiary color is formed : thus, purple and orange produce russet (the red tertiary) ; orange and green produce citrine (the yellow tertiary) ; and green and purple, olive (the blue tertiary) ; russet, citrine and olive are the three tertiary colors. Contrast — 7. When a light color is juxtaposed to a dark color, the light color appears lighter than it is and the dark color darker. 8. When colors are juxtaposed they become influenced as to their hue. Thus, when red and green are placed side by side, the red appears redder than it actually is, and the green greener ; and when blue and black are juxtaposed, the blue manifests but little altera- tion, while the black assumes an orange tint or becomes " rusty." 9. No one color can be viewed by the eye without another being created. Thus, if red is viewed, the eye creates for itself green, and this green is cast upon whatever is near. If it views green, red is in like manner created and cast upon adjacent objects ; thus, if red and green are juxtaposed, each creates the other in the eye, and the 58 SPITZLI'S MANUAL. red created by the green is cast upon the red, and the green created by the red is cast upon the green; and the red and the green be- comes improved by being juxtaposed. The eye also demands the presence of the three primary colors, either in their purity or in combination ; and if these are not present, whatever is deficient will be created in the eye, and this induced color will be cast upon whatever is near. Thus, when we view blue, orange — which is a mixture of red and yellow — is created in the eye, and this color is cast upon whatever is near ; if black is in juxtaposition with the blue, this orange is cast upon it, and gives to it an orange tint, thus causing it to look "rusty." 10. In like manner, if we look upon red, green is formed in the eye, and is cast upon adjacent colors ; or, if we look upon yellow, purple is formed. Harmotiy. — 11. Harmony results from an agreeable contrast. 12. Colors which perfectly harmonize improve one another to the utmost. 13. In order to perfect harmony, the three colors are necessary, either in their purity or in combination. 14. Red and green combine to yield a harmony. Red is a primary color, and green, which is a secondary color, consists of blue and yellow — the other two primary colors. Blue and orange also produce a harmony, and yellow and purple, for in each case the three primary colors are present. 15. It has been found that the primary colors in perfect purity produce exact harmonies in the proportions of eight parts of blue, five of red and three of yellow ; that the secondary colors har- monize in the proportions of thirteen of purple, eleven of green and eight of orange ; and that the tertiary colors harmonize in the proportions of olive twenty-four, russet twenty-one, and citrine nineteen. 16. There are, however, subtleties of harmony which it is difficult to understand. 17. The rarest harmonies frequently lie close on the verge of discord. 18. Harmony of color is, in many respects, analogous to harmony of musical sounds. Qualities of Colors. — 19. Blue is a cold color, and appears to recede from the eye. SPITZLI'S MANUAL. 59 20. Red is a warm color, and is exciting; it remains stationary as to distance. 21. Yellow is the color most nearly allied to light; it appears to advance toward the spectator. 22. At twilight blue appears much lighter than it is, red much darker, and yellow slightly darker. By ordinary gaslight blue be- comes darker, red brighter, and yellow lighter. By this artificial light a pure yellow appears lighter than white itself, when viewed in contrast with certain other colors. 23. By certain combinations color may make glad or depress, convey the idea of purity, richness or poverty, or may affect the mind in any desired manner, as does music. Teachings of Experience. — 24. When a color is placed on a gold ground, it should be outlined with a darker shade of its own color. 25. When a gold ornament falls on a colored ground, it should be outlined with black. 26. When an ornament falls on a ground which is in direct har- mony with it, it must be outlined with a lighter tint of its own color. Thus, when a red ornament falls on a green ground, the ornament must be outlined with a lighter red. 27. When the ornament and the ground are in two tints of the same color, if the ornament is darker than the ground, it will re- quire outlining with a still darker tint of the same color; but if lighter than the ground, no outline will be required." The surest and readiest method of acquiring a practical knowl- edge of colors and their effects in textile fabrics, is to analyze a large collection of samples. Fashion controls the designer to a great extent; and fashion moves in cycles. Exhaustive collections of the most fashionable colors and combinations of each season,. with a proper record of particulars, will not only add to one's stock of knowledge, but any one who is at all observant will, after a while, be enabled to prognosticate coming demands of fashions, with consid- erable accuracy. The value of this ability needs no comments, every designer has suffered more or less from a lack of it, both in himself and in those who assume the control of the patterns in the market. Combing and Combing Machinery. — Combing is an old branch of textile manufactures, but the perfection of the machinery employed is the result of many inventions within the last fifty years. Camel hair, cotton, flax, silk and wool are extensively combed. The best work on wool combing, etc., is Leroux's 6o SPITZLI'S MANUAL. " Manufacture of Worsted and Carded Yarns." The works on these subjects are still very few, in the English language. Combs or Comber Boards are the parts of Jacquards through which the leashes pass, and by which they are kept in regular order and separate. Cords. — This term, when used to designate certain effects in fabrics, is erroneously applied in many cases. Ribs of various kinds running either lengthwise or crosswise are given this appella- tion by different designers, but the best authorities seem to agree that the only effect that can properly be called a cord is a rib lengthwise of the goods, evenly and entirely covered by regular floats of the filling. That there may be variations no one will deny, but reps should not be called cords nor cords reps. Cotton. — Cotton is a fibrous down, which invests the seeds of a peculiar plant, called gossypium by Linnaeus. It has a cup-shaped calix, with five obtuse teeth, enclosed in an exterior calix having three clefts. Botanists describe thirteen species of this plant, which furnish the very dissimilar staples found in commerce. The length, flexibility, tenacity and thickness of the fibres of the different de- scriptions of cotton form the basis for estimating the value of the article. When examined through a good microscope, the fibres of cotton are seen to be more or less flat and twisted, and to have a breadth varying from ¥ i 7 of an inch in the Smyrna, or candle-wick cotton, to 25V0 °f an mcn m ^e finest Sea Island. The fineness of the cotton, where No. 500 is spun, is apparent from the following circumstance. It is said that a house in Manchester, England, is preparing a fabric for the Great Industrial Exhibition of London, which is to be spun from a pound of cotton, and to extend in length 238 miles and n 20 yards. There are in the warp eighty layers of a yard and a half each, with seven warps to the hank and 500 hanks in the pound of cotton. This is a thread which is finer than the finest silk, and cannot contain more than three or four fibres of the finest Sea Island cotton. The main distinction between the various kinds of cotton in the pod is the black seeded and the green seeded. The first separate from the fibre very easily, while the latter adhere to it with great tenacity and require the aid of the gin to separate them from it. After the cotton is separated from the seed, it is packed in strong presses and formed into bales of from 200 to 500 pounds each. Bales of American cotton generally weigh about 500 pounds each. — Baird, (See Baird's Cotton Spinner for description of different kinds.) SPITZLI'S MANUAL. 6l Crape Silk. — Barlow says " the process of making it (crape silk) consists in extra spinning, sizing and stoving, and not in any peculi- arity in weaving." Imitations are made to appear like real silk crape in the finishing processes, such as running the fabric through heavy size and crimping machinery. Cross Drawing. — The definition of this term is already given in an allusion to it under the head Draw. The beginner is always im- patient to master this mysterious part of designing. Mysterious : first, because some men foolishly think they add to their own im- portance if they can be mysterious about their labors. Second, because many are very unsystematic about the arrangement of their drafts, or even worse, do their work without thoroughly understand- ing the principles. However this may be, the secret of success is not so much in great skill as in perseverance and practicability. Neither is there any serious complexity about it, as one would think from the awe it has inspired. The principle is one and simple. Whenever the drawing in hand comes to a thread which is to work the same as a previous one, it must be drawn in on the same harnesses. That is : threads which work exactly alike may be governed by one and the same harness. To reduce a full draft to working drafts, is the most confusing part of the work. It is not always best to follow to the letter the above cited principle, and yet it is desirable to use as few harnesses as possible. The few examples selected for illustrations involve the principles completely, and are so simple as to be easily understood. The alphabetical order of headings brings them into the first part of the book, while simple textures are illustrated further on. The latter should be well understood before going on with these. (See Textures.) No. 37 is a texture that can be woven on any loom that will produce a 4 leaf twill, simply by drawing in the threads on 4 harnesses in the order specified by the drawing-in draft. We will suppose that the full draft has been obtained by dissecting a sample. Begin at the left hand, examine every column of squares (columns represent warp threads, lines filling). The first is to be marked No. 1, the second works differently, it cannot therefore be drawn on the same harness as the first thread, consequently we assign to it the second harness and mark it 2. The third thread is marked 3 for the same reason, and the fourth, 4. But the fifth thread is like the first again, there- fore, it may be drawn on the same harness as the first thread — and is marked 1 ; the sixth thread is marked 2 ; the seventh 3 ; the eighth 4, for the same reason. The ninth thread is like the second; 62 SPITZLl'S MANUAL. " consequently marked 2 ; the tenth like the first and marked 1 ; the eleventh, 4; and the twelfth, 3 ; and so on the end, the entire fabric being a repetition of the first 4 threads, but in different order. After marking each thread below as per upper line of numbers by the above method, we have only to write these numbers in the form most convenient for the drawing in hand, for really this line of numbers is the drawing-in draft. We have found that only 4 harnesses are necessary for this texture ; therefore, we confine the drawing in draft to 4 columns of squares, and copy the line of numbers into these columns, always putting the figures, in the respective column. The form employed here puts only one figure on a line, this avoids all confusion, but it takes a little more paper than putting such figures as come in consecutive order on the same line each time. Again, some designers instead of writing the figures in the Drawing-in draft, use only a mark, this answers the purpose when understood. The Drawing-in draft having been deduced, the chain draft is next in order. Copy the first column from the full draft in another place on the paper, find the second by the row of numbers below, copy it next to the first, the same with the third and fourth. The result is the chain draft, a plain 4-harness twill, which, by the way, could be seen complete and intact on the first 4 threads of the full draft. By examining the other examples it will be noticed that this is not always the case; the representative harnesses being less regular in their order of occurrence in some of them. Let us suppose that we have a fancy loom to weave this fabric on ; that we may employ eight harnesses, which is desirable when there are many threads in the warp. Let the student give the full draft a little thought ; he will see that it has eight threads with the twill to the right, eight with the twill to the left, eight with a broken twill ; eight with twill to the right again, eight with twill to the left again, and eight with a basket texture. We will, therefore, divide it evenly and produce a systematic draft by taking four harnesses for the right hand twill, four more for the left hand twill, and divide the threads of the broken twill and the basket texture among these two sets. The second row of figures below the draft is the manner in which the work can thus be divided among eight harnesses. The student should see if these figures have been put down correctly, and draw off the working drafts; then compare with the one (B) given; in this way practice is at once applied. No. 40 can be woven on four harnesses, as is shown by the working drafts (B) deduced ; but some designers recommend five harnesses, thinking that the harnesses SPITZLI'S MANUAL. 63 work better in the loom. [See Drafts "A."] But if any harnesses are to be added, it would seem that " C " would be far better. They all produce the same thing. The student should reduce the full draft to each of them, and thereby learn that cross draws are only limited by the number of harnesses employed ; that in reality they are made use of for the purpose of producing the full draft with less harnesses than it would require were one harness given to each thread of the texture or pattern, regardless of the many which would work alike, and could therefore be spared. On the jacquard there is no cross-drawing, as the threads of a texture or pattern are all provided for by an independent mail and corresponding cord. Nos. 38 and 39 are given for practice of the beginners; they involve the same principles, but, being larger, look a little more difficult. H SPITZLI'S MANUAL. NO. 37. FULL DRAFT OF TEXTURE, 123412342143214312431243123412342143214311331133 Drawing in Draft A. 123412345678567812436578:23412345678567815371537 Drawing in Draft B. REDUCED DRAFTS, GO cc C3 CC Q o cc Q 4**DD ^z 3*DD* "^ 2DD** 1234 cc Q 4**nn**DD ~Z 3*DD*D**D 02 2DD**DD** 12345678 SPITZLI'S MANUAL 65 NO. 38. 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Dn**nn**Da*-*DD*-*nn**na**nn*-#-nn*-*- ^ ?D*#DD**GD«DD**DD^#DDttnDMDD«n m 2 DD*#nD**DDWDD**DDWGD**DD*#nD** N < *n*-#-nn*-#-aa*-*nn*-*-nn*-*-oD*-*-DO-x-*-nn-x-:*D m ^ *nD**on**nn**-aa-x-*-DO->f*-aa**-no#--x-aa#- M * n#*DD**DD#-#-na#-*-na*-*-oa*#-DQ#-*-aa#-#-D m M *nn**an**-DDx-#-Qn*->fDn*-#-DD#-*-aD*-x-na#- H N w O OCO t***0 lOrf- MN m o oco t-^ _ U"l -«r m i<:*Dan**nn*>ic*Da**DD* 3 1 nn***n*nn*>knn*Dn*>kDn** 3° n**nn***nD**ann**an**n 28 %nn**DDn**nn***nc**na* 27 nn***n*an>k*Dn*nD>k>knD** 26 □**nn***DDD**DD**n*>knn 25 >tc%Dnn*n**n**DD**DDa>k*D 24 >tcnn**Dnn***nn**nn*Da** 22 n**nn***nnn**DD**n**nn 21 **□□□*□**□**□□**□□□**□ 20 ^nn**Dnn***nn**Dn*DD** 18 n**nn*n**na**D**nn**nn 16 *QD**n*nD**nn*DC]**Da** 13 *%DDD*>K*DD**nnD**nn**D 12 ^na**D*nn**nn*DD**DD*>K 10 n**DD*n**D**nn**nnn**n 7 nn***ann***nD*>knn*nn** 4 *DD**D*DD*DD-t^DD***nD* 3 na***nnn***nn**DD4-nD** 2 n**DD***nn**nnn**na**D 1 3 5 7 9 11 13 15 17 19 21 2 4 6 8 10 12 14 16 18 20 22 68 SPITZLI'S MANUAL. NO. 40. FULL DRAFT OF TEXTURE. 1 23456789 10 11 12 i2*^*>tc**D*n*n* 9DDDDnnn*D*D* 7DnDnnnn*n*D* 6D*D*D******* 5D*n*D*nnDDnn 4D*D*D******* 3D*n*D*DDnDDD 2n*n*n******* in*n*n*DnnnDD 121212345454 1 2 1 2 1 2 3 4 3 4 3 4* U 1 2 3 4 1 2 5 6 7 8 5 6j_ c 78567 (cn*n io%^n*n 9DDD*n 8**D*D 7DDD*D 6Q**** 5D*DDn 4D**** 3D*DDD 2D**** iD^DDD 12345 W Eh Fh (A c!3 n (A R . -2>tc%n* ^ io>tc%n* 9DDD* 7DDD* 6D*** 5D*DD 4D*** 3D*DD iD*DD 1 2 3 H H ft l-t 1*! i2^*^*D*D* iinDDDD*n* io^%>(c*n*n* 9DDDDD*D* 7DnDDD*n* 5D*D*nDDD 4D*D***** 3D*n*DDDD 2D*D***** iD*n*DDDn 12345678 SPITZLI'S MANUAL. 69 Cross Weaving. — By cross weaving — that is, by twisting the warp threads around each other — the fabrics called gauze are produced. The process of weaving these crossed fabrics should be somewhat slower than for straight work, and the yarn must be strong enough to bear considerable extra strain and chafing. The threads to be crossed must always pass through the same dent of the reed, unless the crossing is done by a needle bar before the reed, some of the warp threads coming through it without going through the reed. The needle bar mechanism is quite complicated ; there are several patents in England, and one in this country issued to J. G. Spitzli some years ago. When the crossing is done by harnesses, one thread passes through a regular heddle and a doup or false heddle on a separate frame ; the next thread passes between these two heddles, but not through them, and over the other thread. To produce this gauze effect in combination with other textures requires more com- plicated arrangements. In connection with the jacquard head, most elegant fabrics of this class are produced. This subject is exhaustively treated by Ashenhurst and Barlow. The principle is very useful when inside selvages must be made on a wide loom weaving several widths of narrow goods ; by thus twisting ^ few of the selvage threads the goods may be cut apart ; while they will still have a " raw edge," the outside threads will not ravel out. Crystals of Tin. — Salts of tin, or muriate of tin crystallized. Cudbear. — This coloring matter is archil in a very dry and powdered state. The color given by cudbear is perhaps less bright, but more permanent than that from archil, but still very fugitive. Although the colors given by it are fugitive, it is used consider- ably in woolen dyeing for giving the indigo shade to logwood blues, blooming up the dahlia shades and all colors that require a purple shade to them, such as mulberries, peachblows, puces, etc. It is also used with camwood at the present time to bottom for indi- go blues, so as to save indigo. The following recipe is used by most dyers for bottoming 200 pounds clean wool, or 400 pounds in the grease : Bail up 30 pounds of camwood, 15 pounds of cudbear; enter the wool and boil one hour; then draw off the tub, take out the wool and extract ; it is then ready for the blue vat. Cudbear has all the characteristics of archil, and reagents produce the same results on both. Tartar, (CH 2 2 ) is the only mordant that is of any account for cudbear ; it brightens up the color and enables it to resist the fulling and scouring much better. Colors, when archil and cudbear enter into their composition, should be dried in the JO SPITZLI'S MANUAL. shade and preserved from the rays of the sun. Cudbear should be mixed with water into a paste before putting into the dye-bath, otherwise it would float on the surface ; it requires no boiling before the wool or cloth is entered into the solution. D. Damask. — Was formerly made of silk only, now of wool or worsted, and fabrics part cotton, with figured texture like the genuine article, are by no means uncommon in the trade under this name, derived from Damascus. Dandy Looms. — The original Dandy was a hand-loom invented by Win. Radcliffe, an Englishman. His latest improvements were added to the loom about the year 1802, some time after several power looms had been in successful operation. The general use made of this loom even at that late date shows how difficult it was for many manufacturers to realize the advantage of power looms. Some of the principles which made Mr. Radcliffe's loom noteworthy are still employed on many power looms of recent manufacture. Dead Spindles. — What are known as dead spindles are but modifications of the live spindles, for the purpose of attaining greater speed. The difference in quality of work from the two kinds is in favor of the live spindle, which seldom performs more than 4,000 revolutions, and is consequently being superseded by much more rapid working devices. Designs. — W. Dunlap says : " Design, in its broadest significa- tion, is the plan of the whole ; in its limited sense it denotes merely drawing — the art of representing form." There may be a design of the texture, or a design for the arrangement of colors, but a design of a textile fabric, when complete, is a perfect working plan, descrip- tive and illustrative of the arrangement and character of all the com- ponent parts and processes. It designates the kind and quality of the materials, the color, size and character of each kind of yarn, as well as the arrangement, quantity and proportion thereof. It illus- trates the construction of the texture, and describes special pro- cesses. It provides thorough working instructions for each depart- ment. To be complete and perfect, it should be so comprehen- sive that any good manager could from it produce the desired fabric without further instructions. It should with all be an artistic piece of work. If it is proper to produce working plans for a build- SPITZLI'S MANUAL. 7 I ing with taste, neatness and precision, surely these requisites are much more necessary in a design which should originate from a per- fect knowledge of that which pleases the human sense of sight. The practical use of a complete design is that of a chart of instructions, which remains at headquarters for reference and future use. The several departments are given copies of their respective parts of the design. Many designers object to furnish copies of designs for future use, under the foolish impression that by this means they enhance their own value. A more ridiculous theory would be hard to find ; worse than this, the design is the result of labor for which the designer is usually well paid, it therefore belongs to the em- ployer, and the designer should take every pains to make it legible to any good workman, in order that it could be produced at any time without the aid of the originator. We are aware that this is not a popular doctrine among a certain class of designers, but it is none the less sound. Without reference to unnecessary detail or decoration of designs, the statement may be safely made, that a design in its appearance on paper should exhibit skill and taste quite as much as the fabric for which it is executed. To this end, some education and practice is an absolute necessity. The simplest design may, without waste of time, be a specimen of neat and in- telligent workmanship. Designers. — For a time many manufacturers of this country thought to economize by dispensing with designers and requiring the overseers of the weaving rooms or the superintendent to do the work. They found many ambitious and jealous workmen to en- courage this move, but a large proportion have learned that the change was not all clear gain, and have already re-engaged de- signers. Some few have also profited by former lessons, and never allow the ambition of a designer or the jealousy of a superintendent to get the mastery over them. The prevention is simple ; the super- intendent and designer are given clear instructions as to their authority and relation to each other, and the matter of promotion is also positively qualified. The designer has no reason to hope for the superintendent's position if the latter vacates his place for any other reason than such as can in no way reflect any suspicion of intrigue upon the designer or his friends. The designer is not above, but under the superintendent, and can be removed by him. Under these circumstances it is an easy matter to regulate both, and should ill feeling arise the power and influence is not equal. The designer cannot revenge himself by working out the superintendent, nor is the latter tempted to proceed any differently 72 SPITZLI'S MANUAL. " in discharging the designer than he should do with any other workman. That the labors of a designer can be thoroughly at- tended to by one who has other duties to occupy his mind and time is out of the question, unless the amount of designing to be done is very limited. The designer should have no other operatives under his special authority than his assistants and the pattern weavers; he should, however, have a most influential voice in decisions relative to designs, patterns, colors, finish and such matters as materially affect the result of his labors, subject always to the superintendent's decision as to the possibility and practicability of carrying out such details as he may suggest, in the factory in question. As regards the education of designers, it must be acknowledged that America is yet far in the wake of England, France and Germany. Too much dependence has been placed upon the natural adaptability of American citizens to almost any convenient calling. The special and thorough training under the direction and supervision of prac- tical as well as expert tutors has but of late awakened attention, and even now many of those who should be the most forward in aiding every effort to supply this want are carefully pinching their dollars and waiting for some one else to bear the brunt of the battle. But schools for the practical education of the rising genera- tion must be established in this country, else the ground lost by the lack of them will be greater and greater, as mechanical genius in- creases the demands upon mental ability. Designing is a branch of textile manufacturing of such import- ance and peculiar requirements, that it can be performed thoroughly and correctly by those only, who have more or less natural qualifi- cations for it. It is exceedingly tedious and trying work under the most favorable circumstances. When the designer seems to be idly staring into vacancy he is perhaps laboring in a most trying manner. He must develop a design in his mind, to a certain extent, before he can proceed to commit it to paper. Designing a texture is not enough ; a complete design comprehends everything pertaining to the manufacture of the finished fabric ; neither does designing stop here. The design will be almost useless if it calls for expendi- tures so great that the manufacture of the fabric will yield no revenue to the manufacturer. In designing a fabric then, the details of all the processes, the nature of material, dyes and effects must be considered. To fit the young designer not only to perform these duties in their entirety, but to train his mind to a realizing sense of the importance of every detail, requires far more time at present than need f>e spent in preparations. The cost of time and impossi- SPITZLI'S MANUAL. 73 bility of obtaining ready encouragement in many instances deters really promising young men from making a determined attempt to master this art. Design Books. — A careful record of designs, however familiar they may seem, is a great advantage in after years. Notwithstand- ing this matter is sadly neglected by many it is of paramount im- portance. For this purpose design books are supplied. To be con- venient they should contain design paper, ruled or printed (or both), to suit the character of designs to be recorded , by this means a somewhat tedious task is made easier, and the result is much more satisfactory. We know of old men who have made designs enough in their day to be now worth several thousand dollars if they had been properly recorded. As an instance of special ruling for design books, those now to be had for designs of fancy cassimeres will serve well. The pages should be ruled in sections. There may be either two, four or six sections, or even more in the width of a page ; each section to be about as wide as 30 columns of squares. The length of the section is not so arbitrary ; yet, when too long the book becomes inconvenient and space is wasted, when too short many designs will be too long and have to be continued in the next sections, which is very inconvenient. These sections are ruled alike horizontally, but only each alternate one is ruled perpendicularly to make " quadrille." The left hand or first one (ruled only one way) is for the record of warp and filling, and the other for the Drawing-in draft and chain draft. By being careful to keep the enumeration of the threads of the warp on the same lines with the numbers of the respective harnesses, and the enumeration of the filling threads upon the' same lines with the respective bars of the chain draft, much trouble and confusion will be avoided, and neatness will be a marked feature of the book with a little care. Design Paper. — The selection of design paper being now possi- ble, it is no longer economy to use one kind only. For large pat- terns—particularly jacquard designs— the fine lithographic paper is a necessity. Even this comes in large varieties, that the designer may use paper to suit his work. Different sizes of squares and blocks, different colors of print and qualities of paper are the essen- tial differences. Ruled paper cannot be made so fine and regular as the printed paper, but it comes comparatively cheaper. If for the large designs, we use finer ruled paper, and for the smaller ones coarser ruled, the convenience in writing and reading will be very remarkable. Large designs on finer paper, although 74 SPITZLI'S MANUAL. they must be wrought much finer, are easier to work and read, be- cause the area is not so large as on coarser paper, and the latter when used for smaller patterns will still be kept within convenient bounds and make reading easier. Different sizes of sheets are also very essential. Woolen mills which have a set way of writing their drafts can save much paper by having their design paper ruled to order. The form of ruling suggested for Design Books is very good. Design paper should never be kept rolled up It is the best way to transport it in small quantities, but if kept so will get out of shape. Pads are very good on this account. Designing Rooms. — That designers should have rooms, well lighted and ventilated, large, convenient, quiet and inaccessible to any one but those who have important business there, is a fact, but the importance of it does not seem to penetrate some craniums. Designing is work which requires the closest application of mind possible ; if a mind is thus engaged, interruptions, inconveniences and unnecessary difficulties not only cost time but a far greater tax upon the mental powers. A poorly lighted room, therefore, is a loss to the employer and an injury to the persons who must work in it. A designing room should not be on the first floor of a building closely surrounded by others of the same or greater height. East, west and north windows, with convenient curtains and blinds for modifying or shutting out the light, are neces- sary. If only one side can be lighted the north light is usually pre- ferred. The matter of ventilation in rooms where persons must stay for hours at a time is now pretty generally understood, but sadly neglected. Few designers can do their best when cramped for room ; this will be appreciated by those only, who have had many designs to keep track of, sometimes several in hand, and those who know how many conveniences and apparatus are needed, which should have convenient places provided for their storage as well as use. Perfect quiet is a great help ; for this reason, the designing room should be separate from all else ; the pattern room, where the racket and jar of the pattern looms seldom ceases, is no place for close application of mind. To keep those out who love to impose their presence wherever or whenever they are not wanted is quite a task in a factory if the arrangements of the rooms cannot in a measure be depended upon. The furniture of the room is a matter of no little importance, but few designers agree in the details they require. A large table, a low and a high desk, shelves and drawers in abundance ; also, racks for sample yarns should always be sup- SPITZLI'S MANUAL. 75 plied. Chairs or stools are a matter, of choice, best left to the one who is to occupy them. Dissecting. — Is dissecting or " picking out " necessary ; if so, what is the best manner of procedure ? To answer this double question it will be necessary to consider what is understood by dis- secting ; if getting at the texture is all, there are many patterns which need but a glance to satisfy one who has had much experi- ence. But if dissecting in its full comprehension is considered, the character of the finish, colors, threads and fibers must be ascer- tained, as well as the particulars of the texture. How any one can do all this with the naked eye, or without picking to pieces even to the very fibers, and not jump at some conclusions, is a problem the solution of which will probably never appear. One needs to read few notices like the one from which the following quotation is taken to become convinced that the time has arrived when the means of distinguishing fibers are imperative : " Mr. Gideon Hamilton has, after much research and experimenting, succeeded in discovering a chemical process by which the fundamental difference between animal hair and wool fibre is actually removed. It is well known that the difficulty of employing wool and cotton or hair simultane- ously for textile purposes arises from the fact that both materials cannot be homogeneously spun and milled or fulled. The cause of the difficulty exists in the different natural structure of the two kinds of fibre : the animal hair being straight and slippery, while the wool fibre is curly and crisp. The point of the new invention is this, that by the agency of certain chemical substances the animal hair is so efficiently curled that it permanently retains its altered structure during all the manipulations of manufacturing cassimeres, cloakings, felt goods, etc., and can be dyed equally fast together with wool by one and the same process. The importance of this invention is obvious. First, an organic combination of animal hair and wool fibre is produced; secondly, a splendid substitute for shoddies and artificial wools is found." But it is not only to find the kind of material used in a sample to be dissected, that fibers must be examined as never before. The character of a fiber, the effects of various processes upon it; the direction and amount of twist and many other details are often necessary to produce a peculiarity in appearance which may be the only special merit of the piece of goods in hand. The less a man knows about special requirements of his calling, the louder is his ridicule of all their claims as a necessity to perfect work ; but the time has passed and gone for designers of this kind. Manufacturers are rapidly awaken- j6 SPITZLI'S MANUAL. " ing to the realization of the fact that to compete with Europe the designers employed must be of the most advanced kind. The best operatives, stock and machinery can be employed, to the best advantage, only when the factory is supplied with the most accurate plans, in which economy, product and good effect are well com- bined. Having given sufficient evidence of the need of dissecting in its entirety, some suggestions as to method will be in order. Few who ask to be shown the method have any inclination to be methodical, yet this is one of the most prominent characteristics which must be practiced and developed. We recommend that the texture be ascertained first, because while doing this threads are drawn out ; these, if carefully preserved in their proper order, may themselves be dissected in due time without further mutilation of a sample, be the sample large or small ; this is a saving of time, if nothing more. Gesner gives no instructions for dissecting the text- ure, but says : " Every woven fabric is composed of two sets or systems of threads or yarn. If it is necessary to follow a certain specimen in hand, the following questions present themselves : (i.) Which are the warp and which the filling threads? (2.) Of what material are they made, and what are their special characteristics ? (3.) How many warp and filling threads are necessary ? a. Which are the warp threads and which the filling ? (1.) If on the sample in hand there is a bit of selvage the question is readily answered, since the selvage always runs in the direction of the warp. (2.) Are the threads one way doubled and twisted, and the others single, it is almost safe to take the twisted threads for warp. (3). If the threads one way are single or double cotton and the others single woolen yarn the cotton is almost invariably the warp. (4.) Do the threads of one set or system produce a regular or set effect, the other less prominent and irregular, the first are the warp, the latter the filling threads without doubt. (5.) Are the threads one way sized, the others not, the latter must be the filling, the warp having been sized before or while weaving. (6.) Do the threads one way appear straight and regular, the other way loose, rough, displaced or not strictly regular in their own direction, the straight yarn may be safely assumed to be the warp. (7.) Reed marks of any kind will show which is the warp. (8.) The nap, if any, is very reliable, as it is supposed to lay in the same direction with the warp. SPITZLI'S MANUAL. 11 (9.) The twist in the yarn is often the best means of answering this question, the hardest and strongest thread is the warp. Exceptions to these instructions occur but seldom. In many fabrics the difference and the reasons for said difference in the yarn are so clear as to require little examination. That the warp thread is usually the smoothest, strongest, also of the longest and best material is a very safe rule to follow. /;. Of what material are they made? While examining the yarns to decide the first question, the answer to this is often obtained without further effort. The size and twist of the yarn should have especial consideration. To distinguish the material requires perfect familiarity with the peculiarities of all kinds of materials, raw and manufactured. Even when such experience or knowledge is possessed, careful comparisons are the safest in a final decision of importance. c. How many warp and filling threads are necessary? The density of the fabric is altogether controlled by the texture and required weight and thickness. The manner of designating this density by special and appropriate terms has been very diversi- fied by the different systems of calculations employed in different localities. The Technological schools now so numerous are doing much to establish a uniform system of calculations by which the density of yarn in fabrics is estimated by the number of threads and dents in reed per inch or centimeter." To dissect the texture proceed as follows : First — Determine either by the nap or by the difference in the strength of threads drawn from each side, which is warp and which is filling. Many patterns display the fact so clearly that the above precautions are unnecessary. Second — Shear the nap from the back and face as far as neces- sary at the right hand lower corner. For this purpose use curved scissors ; shaving is dangerous, the threads are so easily weakened ; neither is singeing advisable, for the smut even from the smoke of a spirit lamp is disagreeable, and it is more than likely that too large a surface will be . bared, the colors affected by the heat, or, even worse, the thread charred so much as to break when being drawn out. Of course experience will teach one to do almost anything, but the safest way is best for most people. Third — Having thus prepared the sample proceed to cut out a little piece of the lower right hand corner, as shown in figure No. 1 by the lines ABC. Save this little piece, it may be of use after- 78 SPITZLI'S MANUAL. wards. Next turn the sample until the cut corner is at the upper left hand, as in the illustrations. The corner to be cut is designated as the lower left hand corner, because it is taken for granted that having found the warp and filling, the sample will be held in such a way as to have the warp in the perpendicular direction, the filling horizontal or lateral, and if the cloth has a nap, that the nap lay downward as worn in a garment, and that it will always be so held, when under consideration, unless reversed as above directed. The reversing is an obvious precaution after one has observed how much easier a filling thread comes out with the nap than against it. Fourth — Make a straight cut from D to F ; this should be in the third pattern from the cut corner. To make the counting of patterns easy let some prominent or conspicuous thread, if there be any, remain as the first thread ; elongate or shorten the space, A B C, to obtain this desideratum. FIG. NO. 1. Note. — The engraver has failed to be systematic in his work. The cut D E F should be in the same place in all three figures at the beginning of the third pattern ; it need not be so wide, or always so long. In No. 3 the marked threads are not represented as regular as they ought to be. Fifth — Fasten the sample to a piece of card board (or one of the sample stretchers which can now be purchased very cheap) with a few but firm stitches. Then the card is slipped under the stage springs. All this and some of the following is to be omitted when no instrument is used, in which case the sample is held stretched over the left forefinger, by the thumb at one end and by the second finger at the other end. Sixth — Next ascertain which lens is necessary to give a clear view of the threads, always bearing in mind that as soon as the lens is so strong as to magnify the fibers too much they come into prominence sufficiently to be really a confusing trouble. To ascer- tain which lens to use will fix the focus as well. Seventh — Having the microscope and sample in readiness, draw out with the greatest care one filling thread after the other until all SPITZLI'S MANUAL. 79 the space is clear, as in figure No. 2. This should always be done under a magnifying lens, even while a lack of practice makes the task slow and more difficult. Use a pair of forceps to draw the threads if possible ; they do not split warp threads like the needles. The great difficulty occasioned by threads which have been split or untwisted by the needle in this necessary preliminary process will soon teach one to take every precaution to avoid the difficulty ; one of the results of such a lesson is that the aid of a microscope will be courted for this part of the work, even when it can be dis- pensed with further on. The threads drawn out should be saved in their regular order ; this will afford much aid in determining the order of the filling threads, serve as samples of the yarn for dis- section, and to be used as guides for the dyer, etc., etc. Eighth — The projecting warp threads should now be examined ; if there are not several threads especially conspicuous, on account of color, size or kind, some of them should be marked either by FIG. NO. 2. staining or shortening to serve as tally threads in keeping the count correct. Brush out all the loose fibres in the projecting threads. This done, draw forward the first filling thread just enough to loosen it from the fabric, when the sample should appear about like figure No. 3. All these preliminaries are tedious, and one is tempted to slight them, but this should never be done ; many seconds spent in preparing will save long minutes in the work to follow, to say nothing of discouraging annoyances. Ninth— To prepare the paper for the reception of the draft, as taken from the sample, should be next attended to ; mark off as many perpendicular columns of squares as there are projecting warp threads in two repetitions of the pattern, each of these per- pendicular columns will then represent a warp thread, and should be marked at the top if any of the threads have been marked, or are otherwise conspicuous. Always ascertain if there are any back- ing warp threads ; if so, also, the order in which they occur, and mark the respective columns on the paper. 8o SPITZLI'S MANUAL. Tenth — Examine the sample and paper carefully to make sure that every detail has been observed and complied with. Mentally assign the lateral lines of squares upon the paper to represent filling-threads, for they are next to be filled in the same order as would be adopted in common writing. Eleventh — Everything is now in readiness to read off the texture; note how the warp threads cross the loosened filling thread, whether over or under it ; if over it, prick two holes in the corresponding square, one if under, noting each warp thread in its regular order (a very important point, wherein the inexperienced meet the most difficulty) ; having filled all the spaces of the first lateral line of squares as far as previously marked off, if sure there is no error, the filling thread may be taken out entirely, the loose fibers brushed out, and the next filling thread loosened; the lateral line of squares represent the filling threads in their proper order as the same squares in perpendicular lines or columns represent the warp threads. Thus, proceed with each filling thread, marking each line at the left hand if any difference exist among them in color, size or FIG. NO. 3. stock; When enough has been picked out is a matter which each man's experience will teach him. Some can tell after the first few threads how the rest will run, but the beginner should continue until the pattern begins to repeat the second time. When some one is ready and willing to write the marks into the squares as called off, much time is saved. Some drop the dissecting needle to pick up pen or pencil rather than prick the paper, or they use a slate or pegging board, but this is all a matter of choice. Some textures can hardly be dissected from the filling sides, but these are excep- tional cases ; when they occur, reverse the sample and proceed as if the warp were the filling. The marks will then be right on the paper only when also reversed, as in Ashton's instruction. SPITZLFS MANUAL. 8 I Twelfth — The next move will be to deduce the drafts from the memorandums taken from the sample. To do this, proceed as in deducing drafts from designs originated. (See Textures.) As re- gards the use of instruments, little need be said; they make a way into every thinking man's favor with little help. While some authors recommend magnifying glasses for cotton only, others reject all optical aid. While some advise a shawl pin for a dissecting point, others call for a coarse needle in a piece of wood for a handle. Indeed, so many opinions have already been expressed, and so arbitrarily, to say more seems to be adding to the confusion. By calling attention to points not brought to notice by others some good may be done. First, then, as regards optical aid, we hold that the strongest eyes cannot endure the tax of picking out continu- ously for any length of time, but by the use of instruments suited to the work and the eyes, this time may be prolonged and the work done with greater ease and accuracy. In place of proper dissecting needles the shawl pin may do for Scotch cheviots and the like ; the coarse needle may be an improvement upon the pin, but neither of these are a credit to a man who follows a calling, the life and soul of which is a natural disposition to habits of taste and neatness which alone can beget the same characteristics in designs. Further- more, a dissecting needle should not. have a point like a pin or sewing needle, but should taper regularly from the point to within one-third of the length from the base, and nearly all of this one- third should be taken into a delicate but firm and strong needle holder, which will permit a change of needles to suit the work. Four or five different kinds of needles should always be at hand, three sizes of round pins, one or two sizes of straight flat needles, and at least one size of bent flat needles. The flat needle has the advantage of affording strength and less obstruction to the view than a round one, while a bent one allows a different angle for the holder, sometimes necessary when working with a short focus instru- ment. The other instruments which are almost as indispensable as the needles are a pair each of very fine, delicate, curved, elbow and straight scissors, a pair of good stage forceps, at least one good dis- secting knife, and some linen provers to use separately or with microscope. The curved scissors admit the blades close to any flat surface ; with the elbow scissors one may make a cut in a mounted sample when on the stage, while the straight ones are always needed. The forceps will pick up a fiber, thread or even a bit of flocks that would be too small for the most delicate fingers ; when once accus- tomed to them they will be found so convenient that they will be in 6 82 SPITZLI'S MANUAL. constant use when dissecting. The dissecting knife is often needed to cut where or what the scissors cannot reach. Linen provers, with or without lenses, are nothing more or less than gauges where- by the threads may be correctly spaced and counted. Other methods are recommended by various authors; one of the instructions recently made public, direct the operator to fasten the sample to a circle made by pasting the two ends of a strip of card board together, but fails to point out any advantages in favor of this novel contrivance for filling the hands with unnecessary articles. A better method when a sample is to be dissected for the texture without optical aid, is to sew the sample to'a round ball of convenient size upon the end of a suitable handle. The ball, when smoothly covered with a knit fabric, is a good foundation upon which the sample may be fastened quickly. There is no trouble in procuring these ready-made. Ashton recommends the following order of pro- ceedings : " When a draft is required, examine the cloth to see if there is any nap on the back of it ; if there is, it should be burned off by means of a lighted match, care being taken not to burn the threads. If the sample should be a cotton pattern, a magnifying- glass must be used. Next, remove as many of the filling-threads as will leave about one-eighth of an inch fringe. If there are any double and twist threads in the warp or filling, always commence with them. Remove as many of the warp threads as of the filling. When raising the threads be careful not to split those of the warp. Now, having the sample prepared, take it in the left hand between the forefinger and thumb, holding it so that the second finger may secure the threads as they are picked out. Commence at the right- hand side of the sample. Note down on the designing paper all the threads on the filling, and call them so many threads on j and all the threads under the filling, call them so many threads off. Leave as many blank checks as there are threads under the filling. Continue to work thus, until the pattern repeats itself in both warp and filling, and the draft is complete. Sometimes, however, there are repeats in samples ; these can be found by taking out two threads more than the pattern so called, and if both repeat, then the draft is correct, but if only one repeats, trace the draft until both warp and filling repeat. The next thing is to reduce the draft. At this point, do not forget that it is the filling that has been picked out, therefore, after the draft is complete, turn it round one square from right to left, and let the reduction begin at those lines representing the warp. Strict care must be taken that the threads are drawn into the heddles as indicated in each harness, otherwise the work will be a SPITZLI'S MANUAL. 83 failure." Burns gives instruction in more minute details, but very similar in general principles. Baldwin differs more, and is by many considered more clear and to the point than the other two. The fact is, each has some good features to be commended, and all should be studied after the beginner has made progress enough to be able to judge them fairly. Dissecting the Yarn is now necessary. The information which is to be ascertained is important ; therefore, no pains should be spared nor any part of the work hurried. The size of the threads, the amount of twist, stock and colors, if a mixture, are the principal points. The nature of the color should also be investigated. To find the correct size of the threads in a sample there is but one way positively sure, that is to pick out 36, 72, or 144, just one inch long without tearing them in the least. Weigh these ; having thus found the weight of one, two or four yards of yarn, the size is easily estimated. But the difficulty lies in getting these threads. Some- times it is impossible ; at all times too slow if one has acquired a good judgment of sizes and the allowances necessary for the take- up of yarn by the curvature caused in each thread by the fabric. Precision and accuracy are best attained by much practice with samples, the size of which is positively known. Be the size ascer- tained by weighing, judgment, or guess work, it must not be taken for granted, but proved by estimating the weight of one yard of cloth from it. To do this the threads per inch each way must be found. The threads per inch in the warp must be multiplied by the number representing the width of the finished goods, the threads per inch in the filling by the number representing the width of the warp in the reed, in inches. The proportion of each kind of yarn in a pattern being known, the same proportion holds good in a full yard of the goods : when found, the quantity of each kind of yarn per yard is found in ounces by means of the yarn number, (ascertained in either of the three ways above mentioned.) Add all the weights together. If the sum of the weight per yard, with proper allowances for shrinkages, etc., proves correct, or as wanted, the estimate of the size number is right ; if not, proceed to revise the numbers until the work does so prove itself. In count- ing the threads on a piece of cloth, it is a common practice to use a fraction of an inch as a gauge. The errors which are liable to creep in this way are worth a moment's consideration. Let us sup- pose a ^-inch linen prover or pick glass is used ; a portion of a thread projects within the gauge ; it is only a small portion, say one- fourth of the thread, but it is dropped ; this makes one thread 84 SPITZLI'S MANUAL. missing per inch ; in 54 inches it is 54 threads, quite an item. Larger gauges, then, are a decided advantage, particularly when counting coarse yarn ; when counting the threads by patterns or fractions thereof, a two or three inch gauge should be used. The amount of twist is easily counted by laying a thread under a gauge upon a card, and placing them under a microscope. The fibers in each thread may also be counted under a good glass, and the proportions of mixtures ascertained to a certainty, the nature of the colors will be obtained at the same time. The stock is a matter of consideration requiring a deal of sound judgment, but the micro- scope is a great aid in discovering peculiarities. The stock in the sample should be known even when another class of stock is to be used in the imitation, else how can a fair judgment of the final dif- ference be attained. In dissecting threads the fibers are sometimes unruly on account of electricity upon clear cold days; a very little moisture applied to the stage of the microscope or the card upon which the sample threads lay, does away with this difficulty. Dobby Loom. — The peculiarity of the dobby loom is in the appli- cation of a small Jacquard motion to work the harnesses. The Crompton Loom Works have turned out large numbers of light, rapid looms under this name during the last few years ; in these the pattern is put upon the loom in a peg chain. Doffer. — Upon a carding-machine the cylinders which deliver the stock to the combs or condensers. In the spinning-room the operative who doffs the bobbins. The card doffer should always be kept in the best of order, the wire should be fine and of good quality. Domeck. — An English name for an inferior grade of damask. Doubling. — Doubling the stock, while in the several slivers, has for its object regularity and evenness. It takes but little thought to comprehend the advantage of as much doubling as can be done judiciously ; there would indeed be no such thing as excessive doubling if to double many times the slivers did not need to be of certain sizes not always suitable to the stock, to say nothing of extra labor, destruction of material, waste, etc. Doubling yarn is resorted to, to gain strength and regularity. The ring and cap frames are the most rapid doubling-machines, but the quality of the work is not equal to that from flyer frames. The doubling from mules, well fitted up for the purpose, is the most perfect work of this kind at present attainable. It is a matter of much comment that the best SHTZLI'S MANUAL. 85 manufacturers of France and Belgium can spin and double many kinds of yarn more evenly than the same class in England or America. The secret is largely in the fact that they do their best work with mules ; and yet many of their mules are built in England. Double Cloth.— Double cloth is referred to, and some textures given under the head of Textures, but Ashenhurst's remarks on the subject are so interesting that we quote a few leading paragraphs here : " Double cloth is a branch of fancy weaving which is not practised generally, being confined to the woollen and carpet manu- factures chiefly, and very little used in the cotton, silk or worsted manufacture, except occasionally in the latter branch for coatings, in which case a woollen back is woven on for the purpose of giving weight and warmth. Double cloth is for the most part composed of similar fabrics, which are sometimes interwoven at intervals and formed irtfo a diversity of patterns, the two cloths being of different colors, the one color forming a pattern on the other. Double cloths are of three kinds, one formed with one warp and having two weft surfaces, the second formed with one weft and having two warp surfaces, and the third being two distinct cloths." Double Velvet. — This term alludes to the manner in which the goods are woven rather than to any special peculiarity of the finished goods. Two fabrics are woven together face to face ; afterwards severed with a knife ; the ends of the threads cut to separate the goods, constitute the pile or plush on each. It is diffi- cult to make the pile even in this way. Numerous inventions to aid the weaver in this difficulty are extant, but as yet none that insure the perfection that may be obtained by weaving the goods single. Dusters. — Also called Willows, or Willeys, are used for opening stock and removing dust, sand, etc. They are provided with a cylinder revolved at a high speed containing pegs, pins or teeth ; under the cylinder is a screen which allows the fine rubbish to pass through it into a receptacle underneath the machine. The stock is thrown out by the cylinder, either continually, or when the case is opened for the purpose. Drafts or Draughts. — The word draft is made use of for such a variety of meanings in textile factories that its true application and derivation seems to be a matter of doubt. For convenience the two ways of spelling are separately employed in this work, Draft being used for the applications under this head, while other defini- 86 SPITZLI'S MANUAL. tions and remarks may be found under the word Draught. Per- haps it would have been better to adopt one word, but even in this way, each will have several definitions; certainly, as regards the convenience, there can be no doubt. The same words being fre- quently used in these pages, it may be well to state that draught is used only in connection with the draught or drawing of yarns, while draft is used in various connections with designs. The use of this word, instead of the more correct verb, dissect, by several authors has misled many. The true application of the word is, no doubt, in direct connection with the sketch of a texture made while dis- secting, and may without great error be extended to preparatory sketches of designs. Custom has established the use of the word for parts of designs as well. This custom is so universal in this coun- try that it is adopted in this work without hesitation. Under the head of designs will be found the remark that the design is not given into the works complete, but in sections or parts commonly called drafts. These drafts are variously executed, and of course depend very much on the kind of goods and factory. A few of them are here explained in the order delivered in some first-class woolen factories. Spoolers' Drafts specify the number and kind of spools, quantity of yarn on each, and how to be prepared for the warper. The threads or ends upon each spool should always be given, if more than one. If several kinds of yarn are to be put on one spool, the number of threads of each should be stated ; also, any other par- ticulars necessary to make the preparations of the yarn for the warper clear and correct. Warpers' Drafts are very similar to the spoolers, but have, in addition particulars of the divisions, sections or smallbeams, the width of the warp, the yards per piece, and the number of pieces or cuts total. The number of patterns per section, the number of threads per pattern, and their regular order is, of course, necessary. Drawing-In Drafts. — These are the instructions to the drawing in hands, by which they may readily see in what order to take the heddles upon the several harnesses for the purpose of drawing the threads into them. These drafts should be written on a large quadrille paper. For the designer the finer quadrille is much the most convenient, but when the mind and hands are occupied with tangled heddles, it saves time and errors, if the instructions can be read with ease. Chain Drafts. — The chain draft shows how the several harnesses must be moved for each pick. They are written on quadrilled SPITZLI'S MANUAL. 87 paper (the larger the better for chain builders), each little square represents a respective harness, the first perpendicular column is devoted to the first or front harness ; the next for the second, and so on, until each harness required for a fabric has such a perpen- dicular column to represent it ; by making the first pick of all the columns come on a line, we are enabled to read on each line the position of all the harnesses when the shuttle is going through, thus in the following examples of one pick we would read the marks : 12 3 4 5 6 7 8 9 10 11 12 13 14 15 16 One raiser, two sinkers, three raisers, four sinkers, three raisers, two sinkers, one raiser ; because the heavy marks are put in to rep- resent the ball, button, peg or any other device put upon the bars or cards of the chain, to govern the jack which lifts the harness. The light marks show when the device for lowering the harnesses is to be operated. As each line of the draft represents a pick it also represents a bar or card of the chain. Chain drafts should be written on heavy paper (quadrilled on one side only) with a wide margin on all sides, because, being often handled by the edges, they become soiled and should be trimmed before filing. The chain draft is written directly under the drawing -in draft, and to the right of the filling draft in a complete set of drafts, and in the design. When copying drafts for the several departments (especially upon the chain draft) any special thread or threads, which must always appear in the same pick or harness, should be legibly marked ; from the above arrangement of the entire design this is very easy. The columns or harnesses should be numbered at the bottom from left to right. On the left sides the lines or picks should be consecutively numbered, some begin at the top, others at the bottom to bring the beginning of each set of figures in the same corner. The Filling Drafts are made out in many ways ; designers seldom do more than give the order of threads per pattern and number of picks per inch in loom. But a filling draft should also show the working of the shuttle box motion. As different box motions require different kinds of chains or devices for governing them, the variety of filling drafts is great. Some designers, how- ever, designate the number of shuttles to be used and the order in which the respective boxes are to be brought to the shed level. This is simple when the boxes are numbered, the shuttles lettered or named by the kind or color they carry. The instructions for 88 SPITZLFS MANUAL. raw material — those to the dyer, carder and spinner — may all be copied from the complete design, but they can not be called drafts. The word draft has yet another significance in factories ; its influ- ence on different kinds of work varies, but in cotton or woolen factories a draft is at all times bad in the carding and spinning rooms. Especially in worsted drawing rooms should the ventila- tion be such as to keep the temperature even and the air good without a draft from any source. Leroux says : " These work rooms should be well closed to prevent drafts from modifying the temperature, which should be as uniformly as possible — about 20 of the centigrade thermometer. Besides varying the temperature, a draft will increase the evaporation of necessary moisture, and difficulties from electricity, besides blowing about the stock and small particles of waste. Drafting. — This appellation, instead of " dissecting " or " pick- ing out," is common in some districts and used even by some authors, but it is not strictly correct, as will be readily understood by a careful study of the proper application of the word "draft." No doubt the word is misapplied from causes arising altogether through misinterpretation of the words "draught," "draughtsman " and "draughting." Draught. — The draught of a drawing or spinning frame, or any other machine, is the process of drawing the stock, whether in a web, sliver or roving. Also the mechanical devices for drawing, and the distance or amount of drawing done. The calculations of draughts are very nice in some yarns, while in others a pretty good guess does very well. Each one who has any drawing of stock to look after should be well acquainted with the various ways of pro- ducing desired results in the most accurate manner. Much experi- ence is required to know stock well enough to judge the amount of draught it will endure or require. Drawing. — The Textile Designer should by all means be able to draw. While dealing with elementary textures the work is very simple, but larger designs can not be executed neatly, when no artistic skill is at command. " Drawing is the A B C of the archi- tect, engineer and surveyor." (Sir Isambarn Brunnel.) " Drawing supplies us with a power whereby long descriptions and pages of writing are at once superseded, and thus it is a condensed short- hand as well as a universal language." (R. Redgrave, R. A.) Since every textile design like the work of the architect, must be wrought out with mathematical precision, the production thereof may SPITZLI'S MANUAL. 89 properly be classed under the head of Mathematical Drawing. Without discouraging any ambition to free hand drawing, we would recommend a thorough practice with mathematical instruments first. The best method for those who can not place themselves in the hands of a good tutor is to buy a standard work on mathemati- cal drawing, mathematical instruments and drawing materials. The first book of our choice would be " Mathematical Drawing Instru- ments and How to Use Them," by F. Edward Hulme, F. L. S., F. S. A. A book of this kind is as great a necessity as any the beginner can procure. Drawing Materials. — Of drawing materials quite a variety are needed to complete a designer's outfit; on the subject of paper, pencils, etc., etc., the book above recommended contains very val- uable information. Drawing In. — This term refers to drawing the ends of the warp threads through the heddles, mails, etc. This work is sometimes given into the hands of children, or grown persons who are worse than many children, to save wages. It is a poor economy ; errors made here are seldom discovered until the cloth shows it; the time and expense to make it right are usually a serious tax. Drawing in should be done with a hook, which will not strain the eye of a new heddle. First, because the eye of a new heddle should have the best shape possible ; second, because the hook, to strain the heddle, must bind ; if a thread happens to get between the hook and wire it will probably be broken or cut, causing delay and a knot, both of which should be avoided everywhere. To draw in a cross draw, the operative must read the draft frequently ; the sole dependence upon memory, after reading the draft a few times, is something people like to boast about, but it is not the best method even with a good memory. The drawing in is sometimes done on the loom by twisting the ends of a new warp to those of the old ; but the prac- tice is not so common as it once was. Draw Boy Machines. — These are devices employed to assist the draw boy in raising the "lingoes," which, when many in number, were very heavy. This device, as well as the looms upon which they were used, are very fully explained and illustrated by Barlow. Draw Looms. — The draw loom is fully explained by Barlow, whose introduction of the subject alone is very instructive. Ashen- hurst has also several pages of interesting matter on this subject. qO SPITZLI'S MANUAL. - Drawing Frames. — There are so many kinds needed for the dif- ferent kinds of work, and opinions vary so much, that we quote Baird on cotton drawing frames and Leroux on worsted : " Drawing or doubling is the next operation through which the cotton has to pass after it has been carded. The ends, bands or slivers, as they come from the card, are exceedingly tender and loose, the fibers of cotton not being yet arranged in the parallel form requisite for good spinning. Before any twist is given to the bands, the fibers should be in a proper position for the manufacture of smooth yarn. The doubling and drawing out of the bands, which accomplishes this perfectly, is done on the drawing-frame. Some drawing-frames are constructed with three pair of rollers, and some with four pair ; the latter having the advantage of doing more work in the same time. The rollers in a drawing-frame are gener- ally so adjusted, that the drawing is done between the first and third roller, the middle roller having but little influence on the result, so far as the stretching is concerned. Where there are three or four rollers, the drawing is performed twice ; each pair of rollers draws a certain amount. The distance between the rollers is so adjusted, that the longest fiber of the cotton does not reach from the centre of one roller to the centre of the other ; this prevents the rollers from tearing the fibers, because the first pair of rollers pulls the fibers, while the second holds them fast. If, on the other hand, the distance between the rollers is too great, the filaments of cotton separate in unequal thicknesses, and the result is unequal yarn. It is more preferable to have the rollers too close together, than to have them too far apart, provided they are always so far distant as not to injure the staple. The principal object to be attained in drawing the bands is, to reduce their thickness after they have been doubled. Doubling and drawing effects the two-fold purpose of stretching the fibers of cotton, and equalizing the bands. The more a band is doubled and eliminated, the more perfect should be the yarn spun from it ; but this process of drawing can, nevertheless, be carried too far. Excessive drawing, as well as excessive picking and card- ing, tends to weaken the fiber, and finally renders it brittle and rotten. Still, if the machinery is kept in such perfect order as not to injure the cotton, it may be considered impossible to eliminate the fibers to too great an extent. The sliver from the last drawing- head should be of a silky lustre, and its component fibers should lie perfectly parallel with the band and with each other. But little cotton is wasted in this operation ; the waste consists principally of those parts which have to be broken off in consequence of their SPITZLI'S MANUAL, 9 1 running singly, or when the attendant, through negligence or inadver- tence, misses a can, and gets behind-hand with the rollers." — Baird. " The preparatory machines consist of a series of drawing frames of different sizes, in which the number of rollers varies ; for, each machine being called upon to reduce the slivers, the numbers of cylinders ought to go on increasing in proportion to the amount of thinning the slivers have to undergo. The drawing process has for its object to reduce the volume of a certain quantity of wool slivers, while it preserves their original weight, with the exception of a slight loss in flyings and wastings, resulting from the drawing; for, during that process, either loose filaments become detached from the slivers or bits of wool are separated and get wound round the comb. When this latter case occurs the waste is carefully col- lected and a skilled workman draws it by hand so as to repass it the next time; but the waste which falls on the machine or the floor is generally so short and poor that it is almost impossible to subject it to that operation, and we must be satisfied to shake it up in a basket or wicker work cylinder, and employ it for carded products. Before operating with the preparatory machines, we must first con- sider what work we have to do, and dispose of our material accord- ing to the special kind of wool to be converted inte yarn. We begin by — First — Properly lubricating the movable parts of the machine. Second — Arranging the parchments. Third — Regulating the intervals. Fourth — Regulating the weights of the top rollers. Fifth — Regulating the draught. All the rollers of these machines are supplied with weights and levers, exerting a certain pressure on the top rollers. The arms of the levers are movable throughout their entire length, and their power may be modified by means of weights." Dresser. — This name is given to a warping machine on which sizing is applied to the warp, to machines for applying sizing, etc., to fabrics as well as yarns, to some kinds of finishing machinery, and to the men who attend them ; also to sizing, etc. Dressing. — The dressing in many instances is the composition or ingredients used, the manner or means of application, and often only the result or appearance of an operation. Drying. — When drying was done in the open air or in rooms, the temperature of which never exceeded ioo° Fahr., the process was 92 SPITZLI'S MANUAL. not of so much moment as now. The machinery in use at the present time is nearly all devised to dry quickly ; to a certain extent this is accomplished by rapid circulation of air, but cold air will not carry the moisture as well as hot air ; hence, the latter is employed too freely in many cases. If the operators of machines could only comprehend the danger of overheating some materials, no doubt there would be less fault found with the machinery ; it is a noteworthy fact that even those who are supposed to know better, pay too little attention to the matter of regulating the heat. With silks and woolens particularly is it necessary to watch closely, not only the temperature, but the condition of the goods before drying. If woolens are too wet, when dried they are stiff, as if starched, if not clean they will come from the drying-machine in a state difficult to rectify, the colors dingy, perhaps cloudy, etc., etc. (See Tenter Bars.) Dyes. — A few of the most common dyes and dyewoods are men- tioned in this work, with the hope of awakening here and there a desire to investigate further a line of study that should occupy the designer, manager and dyer during many spare hours. It is only by understanding the nature of ingredients and compounds that they can be used intelligently. E. Edges. — The importance of perfect sides or edges, be the selvage wide or narrow, is seldom fully appreciated by operatives; indeed, even overseers are frequently either ignorant or regardless of the consequences of crooked, short, long, rolling, thick, thin, imperfect or rough sides. Some of the causes are here enumerated : Crooked edges are almost invariably caused by uneven tension on the filling while weaving, either on account of bad or too long bobbins, crooked shuttle spindle, shuttle eye in wrong place, or anything else showing itself by a difference in tension on full and nearly empty bobbins. Uneven yarn will also make crooked edges, but this is easily traced if the goods are examined while wet or by look- ing through them toward a strong light. Uneven picks, from what- soever cause, will sometimes produce this trouble. Crooked edges are only the beginning of a worse evil — cockles. Short edges are usually caused by the warper, and may also be done in beaming. Long edges are a .difficulty arising from high sides on the warp beam ; whip rolls or lathes which give in the middle ; worn breast SPITZLI'S MANUAL. 93 beam ; also by the warp reel when so frail as to sag between the sides and spiders, or by putting waste and bobbins in at the sides on the cloth beams. When all these matters are correct there may still be a difference in the length of the sides from different looms, sometimes on the same piece ; this is often owing to uneven pick- ing, or on account of a peculiar lodgment of the shuttles. A very common trouble with looms having a single box on one side and a number on the other. Temples have much to do with the sides, but any trouble from them should be apparent to any careful observer. Rolling edges are caused by a difference in back and face, usually on such goods as are made with warp largely on one side, filling on the other ; whichever side shrinks most readily will roll inwards. With woolens, the fuller and gigger suffer most from this trouble, and upon the fuller devolves the duty of sparing others the annoyance which rolling edges prove to be in all subsequent operations. In sewing for the fulling mill, make short stitches ; if possible, sew that side out which naturally rolls in ; if impossible for the entire process, one-fourth of the time at least, either first or last, will help very much. Thick and Thin edges are made in the loom ; the tension of the filling and the temples must be looked to first. Imperfect and Rough edges are frequently the result of careless- ness and neglect either on the part of the weaver or loom fixer. When the shed is not good at the sides, the time of picking incor- rect, or one shuttle delivering loose filling, another tight, look out for imperfect and rough sides, they will certainly show on thread- bare goods when finished, if not before. Electricity. — Electricity has not as yet proved very successful in applications of it to the textile manufacturing processes. Some very ingenious inventions exist ; but, for some reason, they do not come forward and into general use. Among these are electricity applied to the Jacquard loom and punching machines, to cutting velvet plush, etc., etc. But electricity, as an annoyance or diffi- culty, is very common, particularly in factories, where wool is used. This is more especially the case in carding and spinning; weaving in a cold, dry room is also difficult on account of it. Of the many devices employed to prevent troubles from electricity in carding there is perhaps none which can be covered by one word better than " moisture." Moisture in the stock or in the atmosphere is all that is necessary. A little escape of steam in the vicinity of a card giving trouble has remedied the matter, but a better way is to apply it to the stock. 94 SPITZLI'S MANUAL. Electricity is almost sure to be troublesome when wool has been exposed to great heat in drying, if an insufficient quantity of oil is used, or if the colors either from excessive use of acid, alkali or heat in boiling, have attacked those properties of the staple which wool requires to convey its true nature to the fabric. There is also much electricity in factories altogether generated by friction. This is especially a serious trouble in the card ; and, no doubt, the pro- cess of carding does generate some electricity. Condensing rollers or drawing rollers, when set too close, bring about this evil in the very spot where it is the greatest nuisance. There are some ten pages on this subject in the book called " Queries and Replies," taken from the Industrial Record. Like everything else in this book the information is all direct from the workroom and is, therefore, very valuable, as it gives the varying success of different remedies. The electric light is without doubt a grand success in factories. Several hundred of them are already in use, and in one or two instances are used with the best results in shops running night and day. Emery. — The emery used for grinding cards is of various sizes and qualities. Nos. 3 and 4 are good sizes, and are preferable to finer kinds. It must be perfectly free from rotten or pounded stone and all ingredients not belonging to it. Emery may be tested by laying some of it on a flat piece of iron and attempting to bruise it with a flat-faced hammer ; if good and hard, it will resist the ham- mer; if soft or mixed with any improper matter, it will yield easily, and should be rejected. Coarse emery cuts and grinds quicker than fine, and also sinks in among the points of the teeth, cleans them, and cuts off any roughness, barbs or hooks that may be on them, and prevents them from rubbing on each other. If the emery is too coarse, it causes rings or grooves and ridges around the cylinders. Some carders wash the emery in warm water, when the chips and dust will rise to the surface, and may be washed off; after this the emery must be dried. It can sometimes be suffi- ciently cleared by sifting. To cover rollers, have them turned perfectly true, and a sufficient quantity of glue in readiness. The glue must be of a medium con- sistency ; if it is too thick, it will not adhere to or spread evenly on the rollers; it must be applied as quickly as possible, while the roll or cylinder is in motion, particular care being taken not to miss any part, especially the ends, as it is there they first begin to give way. As soon as the roller is covered with glue quickly strew on the emery, letting it fall from a height of two feet to make it stick, and SPITZLI'S MANUAL. 95 lay it around the ends of the rollers by hand in order to make it adhere to those places. The rolls should be allowed to dry during the night ; the next day receive a second coat, applied as the first except that the glue may be somewhat thinner; they should again be left over night to dry. The next day all the glue and waste emery adhering to the ends should be scraped off, tried with a straight edge, the emery rubbed off the high places, and the whole made as level and true as possible ; next apply a wash composed of 2\ ounces of glue and one pint of water ; this wash unites all the coats firmly together, and does not prevent the emery from cutting. The rolls should be revolved while this wash is hardening. Many forms of hand emeries are also employed. To cover them the same principles are involved as in covering rolls. The emery used for grinding shears, etc., etc., is necessarily very fine, and best applied when mixed with a heavy oil to the consistency of lard that will just run. Ends. — The ends of warp threads are called ends. The use of the word for threads in general is very common. English and French Methods for spinning worsted yarns are often alluded to. The difference is mainly in the manner of draw- ing from the sliver to the thread. Leroux has given full descrip- tions of both methods in his work on the manufacture of worsted yarns. The information he gives should be well understood by all who use or make worsted yarns. Estimates. — It is often necessary to estimate the probable cost of an intended fabric before proceeding to make it ; the calcula- tions necessary are the same as those treated under the head of Cal- culations and in Yarn Numbers, Reeds, &c. But to make these estimates reliable requires quite as much judgment as mathematical ability ; indeed, the latter is useless without the influence of the former. F. Fabric. — The word fabric is very frequently used instead of texture. Webster's definitions of the word are as follows : 1. The structure of anything ; the manner in which the parts of anything are united by art and labor; workmanship; texture; make ; as cloth of a beautiful fabric. 2. That which is fabricated ; (a) framework, structure, construc- tion, edifice, building, (b) Manufactured cloth. " Silks and other fine fabrics of the East." — Henry. 96 SPITZLI'S MANUAL. " An effort has been made to use the words fabric and texture inde- pendently of each other in this work, as a combined use of them is often confusing to the beginner. There is hardly an exception to the rule in this book — fabric being used for "manufactured cloth;" texture, for the structure or construction of the fabric. Fallers.— On some drawing frames the gills are propelled by a screw; when they reach the end of the screw they fall into another which carries them back to the other end again. This falling gives these several bars carrying the gills this name. Fancy. — The cylinder on a card which raises the stock from the main cylinder, that the doffer may take it. The wire should be long, set and bent very regularly and accurately, since the fancy should not be ground much. If the fancy wire is soft it will soon lay down irregularly and always after prove a nuisance. Fancy Diagonals. — Some English writers seldom use the word diagonal, and would therefore head this paragraph with Fancy Twills. Whatever they call it, the English writers and weavers un- derstand the application and variation of twills thoroughly, as may be seen by the several quotations under the head of twills. Fancy diagonals are nothing more or less than very large patterns of the same family of textures as twills, but the long floats are frequently tied down in a manner to produce fancy effects. Feeders. — The employees, the machines or parts of machines which feed or enter stock of any kind, to the machinery. On wool washing-machines the feeder is a boy or man who lays the wool on an apron which is in constant motion toward the bath, into which it finally drops the wool. On wool, cotton and other pickers the stock is still fed by hand. On cotton cards the matter of feed- ing is very simple because the stock comes to the card in laps, but to woolen cards the stock is brought in a loose open state from the picker. Many woolen cards are still fed by hand, but very perfect machinery is now being largely introduced to do the work cheaper and better. Felt or Felt Cloth. — These goods are made by applying heat, moisture and friction to webs of various kinds of animal fibers. The stock is mixed and picked for the cards; carded; from the card it goes to the felting machinery in an open but web-like state ; from the felting machine some kinds are taken to the fulling mills, and some kinds of goods undergo various other processes to pro- duce the requisite density and characteristics. The colors and SPITZLI'S MANUAL. 97 finish applied are also many in kind, according to the ultimate pur- pose of the goods. Fibers, or Fibres. — The fibers used in the manufacture of tex- tile fabrics are described as follows, by Gesner : " The material used in textile fabrics may be animal, mineral or vegetable. The most common are wool, silk, cotton, hemp, flax. Properly classified, they appear in the order below : A. — Vegetable. (1) Fibers from the Stems of Plants. (a) Chinese Grass or Nettle ( Urtica, Nivia,) is a perennial plant, the stem of which bears broad, oval leaves; the upper side is smooth and of a beautiful green color, while the lower side is cov- ered by a white woolly down. The plant grows in East India, Siam. Cochin China, Japan, China, and on many of the islands of the Indian Archipelago. In its wild state it is called Rhea, and is usually found in almost impenetrable masses or thickets. The fiber of the cultivated plant has a length of 120 millimeters, and possesses a wonderful strength, (some tests having shown a strength two or three times as great as that of Russian hemp.) (b.) Rammee is a sort of nettle thriving best upon several islands of the Indian Archipelago, where it grows to a height of one to two meters. It is of a yellowish white color, about as fine as a fair quality of flax, lusterless and very stiff. (c.) Jute is a native of China and East India, but successfully cultivated in other parts. It yields a brownish, coarse, long fiber, used largely in the manufacture of twine, burlap, etc., etc. The fiber may be improved by the hackle and other manipulations until a fine lustre is attained, but is always very brittle. (d.) Nettle. Several plants of this species yield useful fibers. (2.) Fibers from the leaves of plants. (a.) The New Zealand Flax {Phormium Tenax). This plant, native of New Zealand, produces a leaf from + to i T V meters long and 1 to 3 ctm. wide, which contains great numbers of fibers from 5 to 1 1 millimeters long. This material resembles hemp, but is not so soft and flexible, although producing very durable fabrics. (b.) Manila or Manila Hemp {Abaca) is more extensively used for ropes than fabrics, but does occasionally enter into various kinds of the latter. (t\) Ananas Hemp (Bromelia Ananas) comes from the West Indies and South America. The fibers of the roots are long and 7 98 SPITZLI'S MANUAL. tough, furnishing a material with which the Indians produce a sort of coarse linen. (3.) Fibers from Shells or Husks : (a.) The Cocoa fibers possess remarkable elasticity and strength; and are used for carpets, mats and various kinds of plaited goods. (b.) Of the many other vegetable substances that may be woven. Wood, straw, etc., etc., are probably the most common. B. — Animal Fibers, (a.) Cashmere or Kashmere Wool is the fine wool-like hair of the goat (Capra Hircus, Varietas Zanigrd). This goat thrives best upon the Himmaleh mountains at an alti- tude of 5,000 meters. The higher the altitude, the finer, softer and thicker the coat of hair is found to be. Nearly all of this staple is manufactured into shawls in Cashmere. What little is sent to other markets may be said to be of three kinds or colors — white, grey and brown. The word cashmere is also used to designate certain fabrics made of wool or silk warp and goat hair, or fine merino wool filling. Cashmere Satin (woolen satin) is a smooth, lustrous fabric, the warp and filling of which are of combed wool or worsted. Cashmere Muslin, (wool muslin, mousseline-laine) ; the warp and filling of this fabric have little twist and are woven very loose. In Mousselin-deim-laine the warp is cotton, the filling combed wool or worsted. Cashmeret is a fabric more like cloth in its manufacture and appearance. The warp of the best kinds is of a peculiar floss silk, woolen filling. These fabrics are fulled, gigged and shorn. (b.) Vigogue wool is a sort of curly hair from a peculiar sheep to be found in the mountains of Peru, Chili and Mexico. (c.) Alpaca wool is the downy hair of a goat in Peru, is very fine and comes to market brown, black and white. (Alpagnapaco.) (d.) Mohair is procured from the Angora goat of Asia Minor. This staple is largely spun from carded stock, and used as filling for several fabrics, which by fulling, etc., readily yield a nap resembling plush. (e.) Camel hair is the downy hair of certain camels ; is used for combed and carded yarns. (/.) Cow hair is spun into coarse yarns, woven into carpets and other coarse fabrics. (Seldom spun alone, but is carried by a more suitable fiber like wool, etc. — Ed.) (g.) Horse hair, dog hair and even human hair finds its way into various textures. C. — Mineral Fibers, (a.) Metallic wire is woven for sieves, and SPITZLI'S MANUAL. 99 sometimes is introduced into fabrics to represent gold and silver threads. {b.) Gold and silver threads are frequently woven in as orna- ments or fancy effects. (c.) Glass threads are now produced and used but for little else than millinery goods. Figured Weaving. — Is practised as a handicraft process, or the weaver is assisted by the aid of machines. The process of orna- mental weavings as used at the present time in India, is perhaps the same as it has been practised there from the most remote times. It consists in interlacing differently colored threads of various sub- stances and thickness ; and this is done by inserting them in the warp as in plain weaving. By this means the effect is produced by the different colors and materials, rather than by the ornamental decussations of the threads, in which the skill of the weaver is shown. When assisted by mechanical contrivances the art at once assumes a new feature, for by this means, with only one or two colors or varieties of thread, endless effects can be produced on the surface of the cloth. (Barlow.) Filling or Weft. — Filling is a word which in textile terms is used for the yarn which fills the warp. This passive and active dis- tinction between the warp and the yarn which is combined with it to make a fabric probably arises from the fact that the warp is opened by the harness motion, the filling being passed through and left in these successive openings. The filling is quite as important, often more so than the warp ; yet because it is not subjected to so much wear and strain in weaving, it is often made of stock too poor to produce the desired effect, or to endure the subsequent processes, all of which are more trying to the filling than the warp. This is only another evidence that it will not do to slight anything in pre- paring the work for a fabric. Several other allusions are made to the important part of filling under different headings. Fines. — Fines are instituted to aid overseers to enforce rules without discharging, but it is demoralizing to fine so much or so injudiciously as to impress the operatives with a wrong idea of the motive. Frequent and heavy fines are better avoided then imposed, the only true way to avoid them is to discharge, the culprit. Flavine. — This is a coloring matter that has superseded quercitron bark and fustic in dyeing oranges, scarlets and yellows TOO SPITZLI'S MANUAL. The quantity of coloring matter is greater than that of quercitron or fustic, one pound of flavine being equal to ten pounds of bark or thirty pounds of fustic. The best mordant for flavine is alum, tartar and nitro-muriate of tin. A solution of flavine will produce the following reactions with the different metallic salts : Potash Sulphate of Alumina — a very rich yellow. Nitro-muriate of Tin — a yellow orange. Muriate of Tin — a sulphur-colored yellow. Proto-sulphate of Iron — a deep greenish black. Acids lighten the color of the solution, and alkalies deepen it, causing it to assume more of a red shade. Flocks. — Woolen stock ground very fine. Those caused by the gigg and shear are distinct from those cut or ground purposely. Flocks are used principally to increase the weight and firmness of woolen goods ; when so used they are applied in the fulling mill, that the short particles of stock may penetrate into the fabric and be in a measure fastened there by the shrinkage of the goods- Flocks made of old rags have but little of the requisite properties left, and are not cheap at any price. The rags are often colored to make the flocks appear like new stock, but the microscope will aid any one, after a little practice, to discover this deception. Caustic Potash may be used to discover vegetable substances, which are a dead loss in flocks. The method is to boil a small quantity of flocks previously weighed in a liquor made of one gill of water and a piece of the caustic potash about the size of a common bean, this will dissolve the animal fibers and leave the vegetable, which should be washed out (care being taken to lose none), dried and weighed. Use a glass bowl, sand bath, and spirit lamp. A simple test of the cleanliness of flocks is to spread a small quantity on a sheet of paper or glass, then pass over it or stir with a steel point which has been charged with electricity by brisk rubbing with a clean, very dry woolen cloth. Clean fibers will attach themselves to the point. By re-charging several times the sample of flocks may be robbed of all the perfectly clean fibers. Those loaded with grease or chemically retained moisture will remain. Flocks are sometimes used to fill card clothing on the cards instead of depending upon the leather to sustain the wires in position : a practice now seldom resorted to. Flyers. — On spinning frames and twisting machines, the thread guide placed upon the spindle over the bobbin. There are usually two or three eyes or places for the thread to pass through on its way from the rolls to the bobbin or spool. There is no doubt that SPITZLI'S MANUAL. . lOI the flyer twisters make the most even twist ; but as they are slow machines, other devices are more common. Friction on Warp Beams. — The warp beam should be supplied with means to allow the warp to be delivered at either a given rate of speed or with a constant and even tension upon it. All that can be expected, is to be able to maintain an equal tension, also regulating the friction of the beam that no more strain shall be thrown upon the threads when the beam is nearly empty than when it is full. Upon the tension of the warp while weaving, many fabrics depend for their peculiarities. A fabric that is to be at all elastic should be woven with the warp as loose as possible, at the same time getting in the right number of picks and making a clear shed. A part of the tension of the warp may be regulated by the take-up motion. The two should be worked in relative unison, with due consideration of the effect desired in the fabric, the weight, and the amount of strain the warp yarn will endure. Fulling. — Fulling is a process applied to certain fabrics com- posed in part or entirely of animal fibers. It shrinks, thickens and makes the goods more compact. The fibers must be of a peculiar nature or construction to possess the necessary properties which make this result both possible and permanent. This property is found in the fine merino wools in the highest degree. Some hairs have nearly as little of it as vegetable fibers. The nearer a wool approaches hair in nature and construction, the less of the property will it possess. The artificial means employed to produce the result above mentioned are heat, moisture and friction. With these alone it is possible to full some woolen fabrics, but nearly all show better results when some soap is used with the moisture ; short staple will not endure the friction produced by the machinery necessary, with- out soap. The machinery which produces the friction and retains the heat generated by it, and the soap, by means of which the goods are at once moistened and lubricated, are the two principal factors employed. The machines are considered under the head of Fulling Mills ; the kind of soap in its proper place. The application and prepara- tions of the process are alone to be considered here. The appli- cation of the soap is an important feature — too much makes the goods clammy ; too little, spongy. The soap being too strong will, with the heat of the mill, not only affect colors but the nature of the fibers. It must be gradually and evenly put upon the goods ; this is best done by any means which will allow a small stream of 102 SPITZLI'S MANUAL. it to be directed upon the goods while in motion. The quantity of soap used must be governed by the time the goods are in the mill, the stock in the goods, and the density of fabric required. When goods composed of short stock (like shoddy) have too little soap in the mill, they will surely chafe, a loss and damage that cannot after- wards be fully repaired. If the soap is not rich enough for the amount of friction and time required, chafing is a sure consequence. If there is much free grease, or dirt, or dye in the goods, the soap must overcome it or be overcome and prove little better than water. In Rotary Mills of every kind there must be a contrivance to jam the goods together lengthwise, else the goods will not shrink in length, and goods not shrunk in length in the fulling mill, will do so in sponging and in the garment. Almost every one has had experi- ence with goods of this kind, and the consequent annoyances. The contrivance is most commonly applied in the form of a trap box, called " clappers," " crimping-box," " jam," and many other terms by different fullers. The goods running continuously in wrinkles, unless frequently taken out, opened and stretched, will after a while full more in some parts than others, notably those least exposed to the surrounding atmosphere ; this is the cause of mill streaks, wrinkles, clouds and rows. There are also other causes for each of these, but when similar effects are caused by uneven appliance of soap, running of colors, excessive grease, dirt, or flocks, or by uneven yarn they are really different, and should not be designated by the above appellations. The time required by fulling can be regulated in part by the frequency of this cooling, opening or stretching, by the amount of cold air admitted into the mill and by the pressure applied. Opinions vary much in regard to the time required to produce the results, largely due to the fact that different circumstances have been differently observed and accounted for. For instance, two factories may produce the same fabric from the same stock and size of yarn, but one produces the full weight from the loom, in the other, goods from the loom are not up in weight and must be shrunk in length until the weight per yard is right or filled with flocks. It is a great help to the product to weave the goods a little light and gain the weight in the fulling mill, it is true that in reality the loom has to throw about the same number of picks, but the time saved, is in the work which goes much better in the loom. To fill cheaper grades of goods with flocks is a common practice, and a little of it on some is a real benefit. The goods to be flocked should have the selvages closely sewed together, with the side to be flocked outside ; if not SPITZLI'S MANUAL. IO3 washed before fulling run dry a few minutes before adding the flocks, a few minutes after, and then wet out with the soap. This makes the goods a little more pliable, gets the flocks more evenly on all parts of the piece before the closing up of the fabric begins. If many flocks are to be put into the goods, fresh flocks should occasionally be added during the process. The slack method of putting in a few baskets full at once and for all has much in it to condemn, principally that the more goods have been fulled the harder they take the flocks ; from a lot of flocks put into the mill the goods will take the best first ; therefore, after the flocks begin to go in slowly there is only poor flocks left to go in. The practice of mixing good and bad flocks is erroneous. The better way is, to put the desired proportion of the poorer kind into the mill first, and at the right time add good flocks. The best method to govern the gain of weight per yard by shrink- ing is given us by a fuller who has had good opportunities to test the rule. Ascertain the weight total of a piece in the grease, after wash- ing, gigging and shearing. Note the difference or loss in each and all these processes. Multiply the number representing the yards in length of the entire piece by the number showing the actual weight per yard in ounces after shearing ; divide the product by the weight per yard desired ; the quotient is the number of yards in the piece after it has been sufficiently shortened by shrinkage. The differ- ence between this and the length, before shrinkage, shows the length to lose. Whatever proportion of the piece this may be, the same proportion per yard or any number of yards must be taken up. Now by putting two pieces of tape or string in the selvage of the piece any known distance apart it is only necessary to measure this space to ascertain if the proper proportion is taken up. For instance, a piece 36 yards long weighs 18 ounces per yard after washing and shearing; if kept out in length it would weigh say only 16 ounces, but should weigh 18 ounces. It is, therefore, 2 ounces light. To gain 2 ounces per yard, how much must the piece be shrunk ? Thirty-six yards clean, weighing 16 ounces per yard, the total weight is 36 x 16=576 ounces, it will take as many yards of J 8 ounces each to make 576 ounces as 18 is contained in that number=32. The piece must be shrunk from 36 yards to 32 — a shrinkage of 4 yards, or ■*■$ of the whole. Now, if the whole piece must shrink /g- of its own length, each yard or any number of yards, in any part of the piece, must shrink in the same proportion. To make the calcula- tions easy, measure off as many inches between tapes as there are yards in the piece, then you have only to shrink this marked space 104 SPITZLI'S MANUAL. the same number of inches as the number of yards the piece is to be shrunk, viz., in the above example you would measure 36 inches, and this would have to be reduced to 32 inches. It is a good plan to mark two or more places in different parts of the piece. By care- fully noting on the first piece how long the felting-box or clapper was applied a safe guide for others of the same kind is obtained. Goods should always be washed as soon after fulling as possible. If they must lay over night let them be well spread out. Fulling Mills. — The machines for fulling cloth are termed full- ing mills. There are many varieties which are very similar ; they may be divided into three or more kinds — the fulling stocks or hammers, the broad rotary mills, and the narrow rotary or German mills. The fulling stocks are now almost superseded, not because they are not good, but that the power and time required is greater than in rotary mills of the best patterns. There are some goods, however, that have not yet been fulled just right in anything but stocks. The broad rotaries are so called because the rolls between which the goods pass continuously are long, making the machine so wide as to admit two, three or even four pieces side by side ; awhile this is an advantage in one way, it is quite the contrary in another, for too much space forbids raising the temperature of the atmos- phere within it to the proper degree without the introduction of heating apparatus, steam, etc. The rolls in the narrow mills are only wide enough for a single piece. Some have several of these rolls on one shaft side by side. The narrow mills, being a more recent invention, have in many parts improvements on the older kinds. The many builders of these are all making the best. It is safest, therefore, to inquire of those who have given them a trial before investing in them, if the machine must do some particular work just right. Fustic. — The tree from which this dyestuff is prepared is known by botanists by the name of Morus Tinctoria, it grows spontane- ously in Brazil and West India Islands, (that from Cuba is the best.) The wood is the color of sulphur, with orange colored veins ; it contains two coloring principles, the one resinous and insoluble in water, the other very soluble in water, giving a deep yellow color with a light orange cast to the solution. Fustic requires more boil- ing than logwood to extract its coloring matter, but not so much as camwood, barwood or sanders. SPITZLI'S MANUAL. 10$ Ganters. — The beams to support jacquard machines. Gauze {See Cross Weaving.) — There are many kinds of gauze, but all real gauze has at least some of the warp threads crossed. When gauze is made right, it will endure considerable washing with- out displacement of the threads be it ever so open. Imitations, however, have the threads held in place by a heavy sizing. When washed they are, of course, a shapeless mass. Gaws. — A Scotch term for thin places in cloth. In some sections the term "thin rows," in others "cheats " are used. Giggs. — Giggs are used for raising or producing the nap in the process of finishing woolens. Upon the single gigg the cloth passes from a roller at the bottom to one at the top and back again a sufficient number of times to produce the desired result, the fabric being held to or from the teazle cylinder by means of adjustable rolls, about eighteen inches from the cloth rolls and nearly three feet from each other in a perpendicular line. Single giggs are also built in a way to touch the cylinder in more than one place. The double gigg is so called because it has two cylinders ; the goods on these may be made to pass back and forth or continuously in one way ; in the latter case the gigg is termed " rotary," whether it has one or more cylinders. The principle of adjusting rolls is similarly applied as on single machines. The Cross Giggs are a complicated combination of the other giggs, and the addition of separate motion for drawing nap from the warp, or working sideways also, by means of vibrating slats or bands set with teazles, which run from side to side in alternate order, the first in one direction, the next in the opposite. These machines are so complicated that quite a number stand idle to-day, because no one can be secured to run them suc- cessfully; but the principle of drawing nap from the sides is very good, and for some work absolutely necessary. In setting up the machines care must be taken to get all the rolls, cylinders, etc., parallel to each other, otherwise uneven work will be the result, particularly if the goods cannot be reversed several times. For single giggs the manner of putting on the leaders is of no small importance; if very long leaders are used this point is not so serious, but with short leaders the practice of fastening with a few hooks only is bad, as it makes the tension on the width of the goods uneven at the ends. As leaders are constantly wearing at the ends, frequent trimming is a natural consequence, and carelessness in 106 SPITZLI'S MANUAL. attaching them will complete the rejection of a leader sooner than when a little pains has been taken. The slats must not be put into the cylinder in such a way as to bring the cross bars of the several slats directly in a line, as this will sometimes cause streaks in the nap. If the cylinder vibrates far enough, this trouble is in a meas- ure overcome, but prevention is better than cure. Teazles are almost universally used on giggs to supply the points with which to penetrate the nap or threads of the fabric. They should be as small as the finish called for will permit ; of whatsoever size, they must be uniform and set even to do good work, and firm to insure durability. When in use the slats should be dried frequently. To clean slats a brush should be provided ; hand cards destroy the teazles. Gigging. — The process of producing a nap on cloths. To know the amount or kind of gigging necessary to produce any desired finish requires an extensive experience on the part of a close observer. Rules are of little use ; sound judgment is everything. The points to be considered and borne in mind throughout the operation, may be given in part ; first, the treatment necessary to produce the desired finish ; second, will the goods produce the desired finish? third, will the strength of the goods permit it? finally, the stock, twist and texture of the fabric in hand. By frequently reversing the piece in order to gigg both ways a full and soft nap is obtained. To do the work nearly all one way makes the nap lay down and cover the threads better, but it will be correspondingly stiff and harsh, when the hand is drawn against the nap, neither will the nap be so full as when the first mentioned method it adopted. The goods should be cropped both ways before the gigging is com- pleted ; this results in a more even nap and aids the gigg in its work by making the penetration of the teazles easier. Cloth which has a backing woven on, especially when of different stock or color from the face fabric, should always be gigged on the back first ; this clears the face of many penetrating fibers which would otherwise show. Poor slats, that is, such with badly worn or missing teazles, should not be put into a wet gigg. The presumption that anything is good enough for the wet gigg is erroneous. To get a nap clean and smooth to the very bottom, use slats which are well broken in but not worn out. Poor slats will make a curly nap or mottled sur- face. When the fabric contains considerable silk it is a good plan to use brush slats ; after the piece has been wet out give it a good brushing on the wet gigg, to give the silk a lustre not otherwise SPITZLI'S MANUAL. I07 obtainable. Steaming goods on the gigg is sometimes practiced on beavers and like fabrics, but the irregular tension so easily produced by the cheap labor usually employed to run giggs will sometimes cause water marks and other variations in the character of the finish on the same piece, and different pieces will not come out alike. Gill Box. — After the second carding the wool is carried to the machine known as the gill box. This apparatus brings the fibers of the wool into a condition of parallelism. The wool is first caught by three cylinders, which deliver it to the moving combs. The gills, armed with two rows of pins, approach the drawing roller, and one by one sink into a groove which carries them to a second pair of screws ; the sliver, after leaving the drawing roller, is rolled off into a spool. Under some machines a steam pipe distributes steam to the compartments intended to receive the wool in its passage. The wool, passing over the heated parts, becomes smooth, and is drawn out without catching. Gin. — The cotton gin is a machine for clearing the staple of rub- bish. The roller gin has long been in use, but it is so slow, and, being suitable for a few kinds of cotton only, it is being superseded by later inventions, of which the saw gin is one. This machine does little injury to the staple. Gingham. — Gingham is a plaided or checked cotton fabric suit- able for dress goods, etc. Glauber Salts. — Sulphate of Soda. Green Vitriol. — Copperas. Grinding. — The matter of grinding cards or shears is very im- portant ; as easily overdone as neglected, and although easy enough to describe, by no means a process to be learned entirely from books. "In setting the emery rollers to grind the cards, do not set them to bear too hard or too heavy on the wire, for this will heat, soften or break the wire, if it is not very good and tough. The emery rollers should be seven or eight inches in diameter, and always two or three inches wider than the card cylinders, so that they may traverse an inch each way on the cylinder, and not leave any of the wire bare. Traversing is effected by means of a waving pulley, about 5^ inches in diameter; the outer rim or edge of the pulley runs in a slot at- tached to the stand of the roller; or the traversing is produced by a crooked strap, which, fitting between the rims of the pulley, will io 8 SPITZLI'S MANUAL. move the emery roller longitudinally and around at the same time. The traverse motion may be also produced by a waving pulley at the emery roller. The emery roller must be kept on the cylinders until they are ground perfectly true, and until the greater portion of the teeth are ground to a point. The perfect rotundity of the cylinder may be ascertained by the sound it produces on the emery roller as it runs; the sight may also be of service in this respect, either when the cylinder is in motion or by stopping it and giving it a careful examination. When the surface of a card cylinder has been sufficiently ground it will have a blackish appearance, while those parts that are not ground enough will appear more or less clear and bright. As long as a considerable quantity of white teeth appear the grinding must be continued. One day will be sufficient to grind up a new card, if the emery is in tolerably good order." — Baird. " All the rollers covered with card clothing are ground, with the exception of the fancy alone. The object of this operation is to equalize the teeth, render the surface of the cards perfectly cylindri- cal, and to give the necessary sharpness to the teeth. The sharp- ness of card clothing is more apparent in the finer qualities than in the coarser. " Grinding is certainly more readily performed when the roller is perfectly cylindrical, the teeth and leathers of the clothing both uniform throughout, and the emery-covered cylinder well rounded. In order to grind either a main cylinder or a doffer, two movable pedestals are placed on the parallel sides of the frame for support- ing the grinding roller, on the axle of which is fixed a pulley one- fourth or one-fifth the diameter of the roller itself, so that the grind- ing roller has four or five times as great a circumference velocity as the pulley. " To set the grinding roller in motion, a pulley is thrown into gear on the side opposite that of the one intended to drive the roller to be ground. This pulley is driven by that of the drum. " If, for, instance, a doffer is to be ground, it must be made to re- volve slowly, whereas the grinding roller turns very rapidly. This latter roller is then brought towards the doffer very gradually, as there is a greater loss than gain in too much haste. If we approxi- mate the rollers too closely, the teeth to be sharpened will only break off, so that we had better never hurry the work. The two rollers work in the same direction. " Among the instruments invented to improve the operations of grinding and straightening the teeth, we must mention that of Mr. SPITZLI'S MANUAL. IO9 Moriceau, of Mouy. It consists of a grindstone, either of sandstone or emery, driven with a traverse motion. The cards treated by this apparatus are in no way injured, but on the contrary their teeth are better sharpened. " For grinding the cards of workers and strippers we generally use a turned cast iron cylinder, covered with one or more coats of emery and mounted on a cast iron frame, on which may also be fixed three or four of the small rollers to be ground. These work- ers and strippers are arranged around the grinding cylinder and the apparatus set in motion, so that several small rollers can be ground at once. "After being ground in this way, the rollers are subjected to the action of a cloth covered with fine emery powder (canvas emery). " We can easily make canvass emeries for ourselves by adopting the following plan : " Dissolve (by the heat of a water bath) in one litre of water — Isinglass, - 200 grammes, Good glue, - - - - 100 Spread the canvas to be covered on a table, and by means of a brush paint it over with this glue; then sift fine emery powder over the glue thus spread out, equalize the surface with a smooth roller, and after drying, the material will be ready for use. " This cloth is usually mounted on two quarter circles, bound to- gether by two parallel cross pieces. " The process of grinding is terminated by exposing the card clothing of the roller, while revolving, to the action of the canvas emery thus mounted, and then giving a last finish by the application of a leather, mounted in the same manner as the canvas emery and smeared with oil and grindstone dust." — Leroux. Shear grinding is quite another matter ; this is done with very fine emery for a time, but after a while the revolver, ledger-blade and rests should be sent to the makers to be trued, or else, what is better, a machine for the purpose should be at hand and used once or twice every year. In the book, " Queries and Replies," already several times referred to, may be found directions for grinding shears, said to be those sent out by a firm of shear-builders. More minute in- structions, written expressly for this work by an expert shearer, are here given, partly because on some points he takes issue with the above, on others he is more explicit. In preparation for grinding, back off the ledger so far that a light wrapping paper may be drawn between the blade and revolver. Next ascertain the relative posi- tion of the revolver and blade ; this is most accurately done by use I TO SPITZLI'S MANUAL. " of a try square and straight edge. Place the angle of the square upon the centre mark made on the boxes of the revolver by the makers. Lay the straight-edge on the ledger-blade letting the end project to meet the square. The revolver will doubtless be found too high ; if so, drop it to its proper place, when there, about T ' 5 inch of the square should be visible under the straight-edge. Some advise setting up the blade instead, but this will not be of much use if the blade is properly set. (It should not be under the revolver too much.) By dropping the revolver further, a deeper concave may be made. This is not desirable, because it will not retain sharp edges so long. Let up the blade to within the thickness of tissue paper. Next, cover the brushes and rest to protect them from oil and emery. Put the belt on to reverse the revolver. Having mixed flour of emery and oil to the consistency of cream, apply it with a large paint brush. The advantages of a brush over those of a strap are obvious to any thinking mind. While applying the emery set the blade closer from time to time but only a very little at a time. When the grinding is completed polish the ground surface by thin- ning the emery with oil, then follow with clear oil, or a little oil and plumbago. The revolver should next be taken out, everything well cleaned and the ledger blade honed to turn the edge toward the bevel. Never hone enough to make a bevel on the face. Now, let the blade down to the rest to make sure that they correspond in setting ; replace the revolver and give it a few turns to cut off the rough edge which was turned over by honing. If the grinding has been successfully accomplished it should now cut tissue paper smooth in all parts without further setting. If this test proves all correct, it is not well to alter the relative position of the blade and revolver until it is necessary to grind again. To bring the edges closer together raise the revolver a trifle. Grist. — A Scotch term for the size of a sliver, slubbing, roving or yarn. Ground or Ground-work. — The plain texture surrounding the fancy effects in fancy or figured cloth. Guipure. — This word is sometimes used to designate some kinds of lace, again for pointed lace or lacework in general. H. Hackel or Hatchel. — A comb-like device for straightening and separating flax, &c. A sort of hackel was employed when wool SPITZLI'S MANUAL. I I I was combed by hand. In some parts gills are still called hackels, and fallers hackel bars. Hair Cloth. — The original hair cloth was no doubt that at one time made because woolen goods were not allowed in the Temple. The goods now known in the trade as hair cloth are of such mate- rial as to fit them for no other use than furniture coverings and the like. Hair Lines. — Hair line fabrics are those in which the color and texture are so combined as to produce a fine line. The following Hair Line Drafts will serve the beginner well in making experi- ments. It is an easy matter to vary the yarn colors and arrange- ment without violating the principle of hair line weaving. HAIR LINE DRAFTS. Warp Draft. i Mix i Black 2 threads per pattern. Filling Draft. i Mix i Dark Blue 2 threads per pattern. Wart Draft. 2 Mix 2 Black Drawing-In Draft. Chain Draft. 2D* Drawing-In Draft. 4 threads per pattern Filling Draft. , — 2 Mix 2 Black 4DD** 3DD** 1 2 3 4 -Chain Draft, or 4 *DD* 3DD** 1234 or 4D-X-D* 3DD** 2*D*D 1234 Warp Draft. 1 Mix 1 Black 1 Mix 1 Black 1 Mix 1 Black 1 Black 1 Mix 1 Black 1 Mix 1 Black 1 Mix 12 threads per pattern. Drawing-In Draft. I [ 2 SPITZLI'S MANUAL. - Filling i5raft. , Chain Draft. > i Mix 2D* ° r i Mix I2D* i Black i*D i Bkck n*q 121 Mix ioD% 2 threads per pattern. i Black 9%D i Mix 8D* 2 Black l:::::::::'."."6n° * i Mix 5^cD i Black 4D* i Mix 3*D i BlacK 2D* i Mix i*D 12 12 threads per pattern. The principle is simply this : To make a hair line lengthwise of the goods, use the same color of filling as that of the warp threads which are down in every shed. To make cross lines, use filling of the same color as,ihat of the warp threads up in each shed. At least two colors in the warp, and two corresponding ones in the fill- ing, also a plain texture to suit, are needed to make a real hair line. The hair lines made with a line in the warp only, the filling being all one color, are not the genuine, but imitations. By a texture to suit, is meant one which will confine the floats of the warp and filling threads over the respective colors. The principle of hair lines may be extended to large patterns, but as soon as the fine line is augmented into what may fairly be termed a stripe, the name hair line is no longer applicable. Hair Looms. — The looms for weaving hair cloth differ from others mainly in the contrivances necessary to fill the goods. Bar- low describes some of them very fully. Harness, Leaf, Wing or Shaft. — The harness, when com- plete, implies the presence of heddles : without them it is the har- ness frame or harness rods, &c. The harnesses are attached to the harness or head motion of a loom by means of harness straps, wires or cords, and the jacks. Heddles. — Healds, Harness Eyes, Gears or Leash Eyes, were for- merly made of twine, thread, hair, catgut, &c, &c. The wire hed- dle has superseded all these, except on a few kinds of goods, where the stain of metal and a few other similar peculiarities are objection- able. The glass mail makes a good thread eye, because it is not so quickly worn by the thread as metal. The twine harnesses are still in use; the twine is heavily coated to make it smooth and durable. Wire heddles were quite universally condemned at first by manufac- turers of fine goods, because the eye was too large and not always to be depended upon ; but the machinery for producing them has been improved and perfected until any shape and size of eye de- SPITZLI'S MANUAL-. II3 sired can be produced, and so firmly made that no thread can slip into the twist. The convenience of wire heddles needs no com- ment. In factories making one kind of goods the year around, this is not appreciated, but in others where every warp varies in number of threads, the saving is a large item. I. Imitation Furs and Skins. — These goods at times are very popular for cloakings. Of this kind also are many robes and mats. In relation to this subject Ashenhurst says : " The length of pile is a very important matter, especially if the object is to imitate the skins of animals. The length of pile must be in accordance with the nature of the skin to be imitated. Take, for instance, the sealskin, which is very largely imitated, sometimes by the warp pile principle, and sometimes by the weft pile principle. The pile or nap of a sealskin is of the medium length, from a quar- ter inch to about half an inch, somewhat longer than an ordinary velvet, while an imitation dog skin of the long curly or wavy kind has a very long pile or nap, ranging up to an inch in length. In both these kinds of skins there are important features to be ob- served, quite apart from the weaving. Seal skins are very often made with a sort of tan-colored ground, and the tips of the pile are colored a very dark brown, which gradually gradates down towards the ground, thus giving it an exceedingly rich appearance. This tipping, as it is termed, is done after the pile is woven and cut, and is really a part of the finishing process. In the imitation dogskin the curl or waviness is produced by a preparation of the pile warp before weaving. The yarn is crimped, the length of crimp being regulated by the amount of waviness it is desired to give. The crimping is set in the yarn by a steaming process, the yarn is then made into a warp, and woven over wires and cut. The moment it is cut it falls into the crimps again, and thus produces that wavy shagginess. No matter what the effect on the face may be, if the pile is a warp pile the principle of making is the same. If the pile is of a material which is very likely to pull out easily it is more firmly bound into cloth by interweaving, and vice versa, but all other effects, such as curliness, waviness, coloring, etc., are produced in the preparation of the yarn before weaving, or in the finishing. Numbers of various effects in imitation skins might be given, all produced by different processes, but the object of this work is to 8 114 SPITZLI'S MANUAL. deal with weaving only, and to lay down the principles so that they may be applied to all classes of trade, and not to detail the manner in which any particular cloth is made, otherwise there might be no limit to the work, and a vast amount of information might be con- tained in it which would be of no value except to those engaged in that special branch of trade. Weft piles are produced by the material of which the pile or nap consists being thrown in as« weft instead of warp. The appearance of a weft pile is usually totally different to that of a warp pile, inasmuch as the warp pile being woven over a wire and cut down, the pile is made all of a length, and unless in the case of a very long pile, or when the yarn has previously undergone a preparation for the purpose of producing some special effect, all warp piles present a smooth even surface, the tips of the pile only being presented to view. But in the weft piles this evenness cannot be well maintained, partly in consequence of the manner in which the pile must be bound into the ground cloth, and partly in consequence of the method of cutting making it almost a matter of impossibility for both sides of the loop to be cut of an equal length. There are one or two exceptions to this which will be mentioned, but they are only in special makes, and have each peculiar characteristics." India Shawls. — The materials of which the shawls are made is wool called touz, procured from a goat of a particular species, fre- quenting the valley of Cashmere and the neighboring mountains of Thibet. The fur of this goat is of two sorts : the touz, which is a soft, woolly undercoat of greyish hair, and an outer coat of long, silken hairs. To make a shawl a yard and a half square requires the touz of ten goats. The different parts of it are afterward sewn together with great skill. When busily engaged the artisan can earn at the utmost four annas, or eight cents of our money, per day. India shawls are named Dacca, Delhi, Bombay, Calcutta, Umritzer, &c, after the districts in which they are made. The labor, how- ever, is what chiefly determines the value of a shawl, even when the texture is not the finest. Indigo. — " This is a vegetable color, and belongs to a leguminous plant found in India, Africa and America, named Indigo Fera. There are about sixty species of this genus, and all yield indigo. The species from which it is extracted are the /. anil, the /. argentea, and the /. tinctoria." " When indigo was first introduced, only a small quantity was SPITZLI'S MANUAL. II5 added to the woad, by which the latter was much improved. More was afterwards gradually used, and at last the quantity became so large that the small admixture of woad served only to revive the fermentation of the indigo. 'Germany thus lost a production by which farmers, merchants and others acquired great riches. In consequence of the sales of woad being so much injured, a prohibi- tion was issued against the use of indigo in Saxony in the year 1650 ; and in the year 1652, Duke Ernest the Pious caused a proposal to be made to the Diet by his envoy, that indigo should be entirely banished from the empire, and that an exclusive privilege should be granted to those who dyed with woad. This was followed by an imperial prohibition of indigo on the 21st of April, 1654, which was enforced with the greatest severity in his domains. The same was done in France ; but in the well-known edict of 1669, in which Cal- bert separated the fine from the common dyers, it was stated that indigo should be used without woad; and in 1737, dyers were left at liberty to use indigo alone, or to employ a mixture of indigo and .woad." — (Barlow's "Manufactures and Machinery of Great Britain.") " The indigo plant which grows in Bengal is small and straight, with thin branches which spread out in the form of a turf. The average height is about four feet. The leaves are soft, and like those of the common clover, and the blossoms are of a blue purple color, and when the plant is in full blossom it yields the greatest amount of indigo. For the mode of extracting the indigo from the plant, see Barthol- let on the " Elements of Dyeing ; Dr. Ure's " Dictionary of the Arts of Manufactures ;" and Dr. Thomson's " Vegetable Chemistry." The impurities in indigo are iron, clay, lime, magnesia and silica of a substance somewhat like gluten. Each chest you will find to contain a quantity of dust which sometimes amounts to eight or ten pounds. This dust is an adul- teration composed of starch or white lead mixed with powdered indigo, and is put in the chest in order to increase its weight. The principal varieties of indigo in commerce are the Bengal, Guatemala, Madras and the Manilla. The varieties of the Bengal indigoes are numerous, the best varie- ties are : First — The superfine or light blue. This is in a cubical form, light and soft to the touch, of a clean fracture, and will give a beautiful copper color on being scraped with the nail. Il6 SPITZLI'S MANUAL. Second — Is called superfine with a violet color by being scraped. The thirteenth variety is an ordinary and low copper-colored indigo, with a copper-colored blue or red cast, and hard to break. The indigoes of Guatemala are of various kinds. The best are a bright blue color and very light and fine. These indigoes are equal to the best Bengal. The inferior kinds are a violet color and as a general thing are more mixed than the Bengal kinds. The Madras indigoes have a rough fracture. These indigoes when of the best quality, have great lightness, but are not equal to the Bengal or Guatemala. The middling kinds have a very slight copper color. The inferior kinds have a dark or muddy blue, black, or even gray, and greenish color. The Manilla indigoes are of a finer and lighter color than those of Madras, but not so fine as those of Bengal. The middling kinds are of a violet color, but are inferior to the violet of Bengal. The tests for indigo are too numerous to insert in a book of this kind, besides being too tedious and difficult for most dyers, they not having the facilities to carry out such delicate operations as that of testing indigoes, and for more light upon this subject, dyers must consult, " Dr. Thomson's Vegetable Chemistry," and the other works mentioned in this article. Ingrain. — This term is particularly applied to certain carpets, and implies that the wool was colored before manufacturing. This it implies, we say, because it is no longer really true of ingrain carpets, they being now largely dyed in the yarn. To all intents and purposes the same, as coloring in the wool as regards the nature of the goods. Inkle Loom. — A ribbon loom. Irregular Fabrics. — By irregular fabrics we understand goods which are not a straight piece of cloth ; indeed, in some instances they are a garment almost complete, such as underwear, skirts, corsets, etc. The corset is woven so that the warp encircles the body ; hence the top and bottom are the edges of the web as it comes from the loom. The gores required to give necessary shape are therefore on each side of the web, the middle, or waist part, being smallest. The warp is composed of 36 independent sections, so arranged as to play off warp only where filling has been left in the shed, or so far as the shed extended ; hence, when a filling thread has been inserted through the entire width of the cloth, they all give warp, but in weaving the gores, where the filling was inserted into but a few SPITZLI'S MANUAL. 1 I J inches of the fabric, only those sections on the corresponding space allow the warp to advance. To produce the shed in the right place to weave the double cloth for the pockets, and to produce the neat fancy effects of the weav- ing, requires a Jacquard head, but both this and the sectional let-off motion, though perfect in operation, would result in shapeless goods, and prove uncontrollable, if the ingeniuous take-up motion here applied were not used. This consists, first, of a wooden bar inset with points so as to retain all that is fed to it. Whatever portion of the web has been filled by any pick is slackened by the next beat of the lathe, and the take-up motion consisting of a rubber apron closely adjusted, draws up such slack, the above mentioned bar retaining all that is drawn, always leaving the web before the reed square, though the amount of cloth woven at the selvages, or top and bottom of the corset, is about double that in the middle. A very ingenious contrivance for taking up all slack in the filling by the shuttle is employed here, and is indispensable for this work. It would be impossible to do it justice without a diagram. Suffice it, therefore, to say that it not only takes up all the filling necessarily extended at every pick, from the web to the shuttle, at its destina- tion on either side, but also equalizes the tension to perfection. This improvement, added to other shuttles, would, as in this case, obviate great waste or uneven selvages or kinks along the sides of the goods, as is often the case, even in plain goods. It is very evi- dent that with a loom so well adapted to eccentric shapes irregular weaving must have a great field, and there is no reason why other garments, such as hosiery, under-clothing, skirts, etc., should not be as successfully produced. Italian Cloths. — A cotton warp and worsted filling lining cloth. Most of these goods are piece dyed. J. Jacks. — In the textile interest we have two jacks of importance, beside the many which do not amount to much. The loom jack is a part of the harness motion. Murphy speaks of jacks as a part of the hand looms in his 1831 edition. The spinning jacks are being superseded by genuine mules or by cheaper machines, an imitation of the mule called self-operators. Jacquards. — Such thorough and finely illustrated descriptions Il8 SPITZLI'S MANUAL. of these machines may be found in Ure's Dictionary, Ashenhurst's, Barlow's or Gesner's works, that it seems superfluous to repeat them in an abbreviated form here. The later improvements are numer- ous, each builder having some to present as his special claim to patronage, and each will be liberal in supplying the necessary in- structions to accompany them. Jute. — A substance resembling hemp, being the fiber of the corchorus obitorius used for making gunny cloth ; also mats, coarse carpets, etc., etc. K. Kaleidoscope. — An instrument very useful to the designers of oil-cloths, carpets, tapestry, etc. When the colors in it are of the right shades, it supplies an endless variety of changes for the same colors, which, with a little modification or correction, will apply well to many textile fabrics. Kentucky Jeans. — A peculiar cotton warp and wool-filling fabric. When made right and honestly, a very serviceable cloth, formerly in color something similar to the cadet and Oxford mix- tures, but now made in many variations of color. Kerseys. — The common Kersey of to-day is a cheap woolen cloth of a twilled texture from which is derived the name Kersey twill. Simmonds is quoted in the latest editions of Webster's Dictionaries as follows : " A species of coarse woolen cloth, usually ribbed, woven from long wool. [Scot., Corsage j D., Karsai ; Fr., Carisel, Cariset, Creseau ; Sp., Carisea ; Ger., Kersey, Kir set ; Sw., Kersing ; Cf. Gael & Ir., Ceart, Ceirt. A rag, old garment.] Kerseymere. — A woolen cloth of the finest wools — Cassimere. Kilogrammetre. — The weight of one kilogramme raised to the height of one foot in one second of time. Knickerbocker Goods. — Are a woolen fabric in part or entirely made of Knickerbocker yarns. Knickerbocker Yarns. — These ' yarns are lumpy, spotted or striped, sometimes in several colors, produced in several ways, some of which are described in the following abstract from the Industrial Record, Queries and Replies. " The wool intended for knots is taken from the picker without oiling, and run through the first breaker with the comb idle, and workers and fancy set off accord- SPITZLI'S MANUAL. IIQ ing to size of knots wanted. The best knots drop between main cylinder and doffer. To make a lot of 500 pounds, red spots in black, first run 12+ pounds of red knots with 37-j pounds of the black wool, through the first breaker, then run through the same card the remaining 450 pounds of black, and in 48 spools for feed- ing second breaker use 9 of the first lot (knotted spools) and 39 of the black, running the 9 with knots in the top row of creel. To make silk spotted Knickerbockers, run equal portions of silk and wool through first breaker, and use only 3 spools at a time on sec- ond breaker. Besides setting the workers off from the cylinder, the doffer must be set back — in fact, set clear away from the cylin- der. This allows the wool to remain on the cylinder till the naps are rolled, so that they fall away, or rather are flung from the cylin- der by centrifugal force. The distance at which the workers are set from the cylinders regulates the size of the naps, but if the doffer be close enough to catch the wool, then you are carding, not nap- ping. If the naps are too hard rolled, they will drop off in the spinning and carding; so they must be left with a beard sticking out to incorporate them thoroughly. Again, if you want the naps all one size, never take wool from the picker to nap, but run it through your first breaker and open it out thoroughly, not partially between the picker and the regular carding or napping." Knitting. — Knitting is a process of producing a fabric by inter- twining the yarn, instead of weaving it together. It is now almost entirely done by machinery. The goods produced are sold as hosiery. It is a distinct and separate branch of textile manufac- tures. L. Lace and Lace Looms is such a complicated subject that space cannot be afforded for the needed illustrations. The subject is well considered by several authors. Lam. — A heddle or leaf. Lamps. — Lamps have been almost entirely superseded in factories where gas is available. The lamps to be considered here interest the student more than the manufacturer. Of the many men who will hold important positions in the course of another decade, not a few are obliged to do all their studying by lamp light, in their rooms at home or at the boarding house; a large proportion of 120 SPITZLI'S MANUAL. them can get no other time to practice dissecting, &c. To these a lamp which will supply an abundance of light on the work and pro- tect their eyes, is a boon which they cannot fail to appreciate if they will for a moment consider the many men who have ruined their sight for life for the want of a good lamp to study by. Lathe, Lay or Batten. — The frame in which the reed and shuttle boxes are fastened. Its use on the loom is to supply a race- board for the shuttles to travel on, and to beat up the picks during the changes of the sheds. Laying Out. — In woolen mills the term laying out is very com- mon ; it is more particularly applied to laying out lots, yarns, designs, etc., and refers to the necessary calculations referred to in their respective places. Lease, Lea or Leas. — By alternately crossing the threads of a warp their regular succession may be retained by means of lease rods or cords. The above terms are used for the cross of threads so made. Lino or Linau. — Murphy describes this as a species of gauze. Lingoes. — The weights used on the bottom of jacquard leashes. As there is nothing but these weights to draw down the lower sheds upon a jacquard loom, their importance is obvious. Live Spindles. — Although now rather too slow, it must be still acknowledged the best for even and smooth work. Live and dead spindles are more particularly known by these names in connection with throstles and cotton spinning. Logwood. — " The logwood tree is known to botanists by the name of Hcematoxylon Compeachianum. Its bark is thin and smooth, but furnished with thorns ; its leaves resemble the laurel. The wood is hard, compact and capable of taking a fine polish. Its specific gravity is higher than water, in which it will sink. Like many other valuable dyestuffs, logwood was used a long time before the real nature of the coloring principle was known. " Chevreul made a chemical examination of logwood, and found that it contained a distinct coloring substance, which he called hematine, a name which has been changed to htematoxyline, to avoid any confusion with a substance having a similar name, con- tained in blood." Logwood contains resin and oil, sulphate of lime and alumina besides the coloring matter. The ingredients vary in different woods, some having more than others. SPITZLI'S MANUAL. 121 A solution of this wood is easily changed from its natural color, by alkalies to a purple, by acids to an orange. Almost all the metallic and earthy salts cause abundant precipitates or lakes, with its solutions, the colors of which vary from violet to black, and in all cases retaining a tinge of the violet hue ; so that a solution of log- wood always throws down a compound color, whose proportions of red and blue vary with the different metals used, and each gives deeper shades, according as it is more or less oxidized. Tin alone, of all the metals, gives it the property of resisting acids, and by taking a proper course with a mordant of tin, you can obtain a purple as durable as indigo blue. Alum always gives violet- colored shades. Logwood enters into all colors that have any tinge of the violet in their composition, such as drabs, lead, slates and all the violet shades, plums, some dark browns, etc. ; but its principal consump- tion is in logwood blues and in blacks, to which it communicates a softness and glossy lustre, unequalled by any other material. If a well saturated decoction of logwood be evaporated, a deep plum-colored magma, of a very tough and tenacious consistency, is obtained : this is called extract of logwood, hematine, or hoematoxy- line. Chevreul's process for obtaining the extract of logwood is to digest logwood chips in water at 120 or 180 Fahrenheit, after- wards filtering the liquor and evaporating to dryness. What remains is put into alcohol for a day ; this is again filtered, and the clear liquor evaporated until it becomes thick. To this is added a little water, and evaporated anew. It is then left to itself, and the coloring matter crystallizes. The extract possesses the same properties as the decoction, and is in comparative strength to good logwood chips as 1 is to 5 : that is, one pound of the extract is equal to five pounds of the chips. Logwood grows in the West Indies and on the eastern shores of the Bay of Campeachy ; that which comes from Campeachy is the best." — Gibson. Looms. — There are now so many kinds of looms that several of the many builders require large books to furnish all the particulars of their manufacture alone. How useless then would be the attempt to describe them all briefly. For a general account of the construction of the more common looms most builders may be depended upon. For the construction of the Jacquard lace loom, etc., etc., the reader is referred to standard works on Weaving, Barlow, Ashenhurst, Gesner, &c, &c. Some of the most common 122 SPITZLI'S MANUAL. " names may be profitably enumerated : Roller, cam, tappet, chain, draw, open shed, close shed, positive shuttle motion, ribbon and tape looms. The roller loom proper is so called because the harnesses are raised and lowered by means of straps passing over rollers which are worked by an eccentric motion. A cam loom, tappet loom and chain looms are so called because the harness motions are governed either by cams, tappets or pattern chains. The open shed and close shed looms are names used to designate looms which close the shed at every pick, be the next shed entire or in part the same ; and those which do not change the position of the harness until the change is called for of necessity by a different shed. Much is said in favor of both which is true, and nearly as much which is exaggerated. There is no doubt that the open shed loom is easiest upon the yarn, but in some textures it makes a rough surface, in others the picks cannot be beaten in fully. The fact is, a loom which can readily be changed from one motion to the other without much trouble is wanted, that the shed may be made as required by the work. Such a loom will doubtless soon be pro- duced in a high state of perfection at the Crompton Loom Works. M. Madder. — " This plant or shrub, Rubia Tinctorum, rivals indigo as a dye drug, both from the beauty and permanence of the colors given by it, and also from the numerous shades that can be dyed by it. Madder is raised or cultivated in France, Holland, but mostly in Holland and the Levant. The Levant or Turkish madder is the best. In France and Holland the roots are gathered every three years, in Smyrna and Cyprus they are gathered every five years. When the roots are taken from the ground they are carefully cleansed and spread on the ground to dry ; it is then ground to a fine powder and put into casks ; in this state it is received by the dyer. Madder should be kept in a dry place, as it easily absorbs moisture which is an injury to it ; when kept dry it improves by age, its age can be ascertained by the appearance of the head of the cask, if it is two or more years old the head will be swelled out by the swelling or growing of the madder. The quality of madder is judged by the taste and smell, the good will have a heavy sweet smell, with an earthy flavor, its taste is a sweet bitter ; when exposed to moisture its color will pass from the orange tint to a deep SPITZLTS MANUAL. 1 23 red. Madder is sometimes adulterated with brick dust, red or yel- low ochres, sand, clay, sawdust from mahogany, powdered logwood, and sandal wood, etc. The mineral impurities may be detected by putting some of the madder in a glass jar and pouring boiling water upon it, the madder will float and the sand, brick dust, clay, etc., will sink to the bottom." — Gibson. Mails. — Mails, glass or metal, are thread eyes used on jacquards, and sometimes harnesses. Some glass eyes or mails have also been shown of late in wire heddles. Mathematical Instruments. — How to use these instruments may be learned from much more satisfactory works than a para- graph in this or any other book. Especially do we recommend the beginner to purchase one of standard authority. The selection of instruments in purchasing, is very practically treated in the intro- duction of such a work by F. E. Hulmer, F. L. S. Measuring. — Measuring in whatsoever part of the factory or processes, should at all times be done with the greatest care and accuracy. The little allowances here and there often lead to greater errors. Measuring machines, wherever they can be applied, if right good, are always better than hand measuring. Meltons. — Woolen cloth that has been well fulled, but not gigged. As the nap on these goods is developed entirely in the fulling mill, and because meltons are very generally made into gar- ments with raw edge seams, it is highly important that the stock be short, fine, sound, (of good fulling quality,) that the yarns be fine, not too hard, the texture not too open, and the fulling process just right. Merinos. — Many fabrics have from time to time been given this name, sometimes honestly; more often to deceive the trade, by falsely implying that they were made of Spanish or merino wool. Microscope. — The microscope is an optical instrument, which should have more than a simple definition here. But so important has its use become that some standard treatise on the subject is more advisable than a brief abstract. Its use in the designing room, however, is a subject which calls for some consideration. It is only of late years that the more advanced designers of textile fabrics have discovered the great aid they may obtain from optical instruments. The old saying, " Don't use glasses as long as you can see better without them," seems to have been interpreted as a general warning against optical aid. The fact that few can see well 124 SPITZLI'S MANUAL. without some practice with any instrument, has perhaps led many to think they could still see better without. The microscope, when used properly, is a great help to any designer, those with the very healthiest eyes not excepted. When the proper power is applied in the right place, when the instrument suits the work, and the operator has learned the necessary points in regard to adjustment, etc., there will never more be a doubt of the benefits afforded by the use of optical instruments. Another reason why many have been discour- aged in attempts to use instruments, even after impaired sight was cause enough to resort to them, has been the impossibility to get the right instruments convenient in shape and power for the work. Another difficulty has been the ignorance of optics among those who should make the science a study. The compound microscope supplies a field of suggestions to the Jacquard designer which he can fill in no other way. With it he may see the most wonderful arrangement of particles in substances of every kind ; it opens to him the endless book of designs which excel all human possibili- ties, but afford unlimited numbers of suggestions which are more graceful, more pleasing to the eye than those from any other source. As an instance, we would cite a sectional view of many kinds of hair. Almost invisible to the naked eye, under the microscope they are most magnificent designs in gauze. But its use is not confined to suggestions alone. After having become familiar with its powers, one may distinguish the different textile fibers quickly and with a certainty. One may count the fibers in a thread, thus get at the grade of stock and yarn ; also ascertain the exact proportion of mixtures. Indeed, there is not room in all this book to tell of all its uses and benefits to manufacturers. The single microscope is no less important because it costs less money ; indeed, for some work it is infinitely superior to any compound microscope. Take, for instance, the most common use for it, dissecting the texture. If strong, a mingling of fibers is the consequence ; one is confused rather than aided ; but with a power that is adapted to the work, one can see every thread clear and distinct ; can work for hours without unusual fatigue to the eyes, notwithstanding the threads do not look like so much cord wood, as some expect to see it if they venture five dollars on a magnifying glass. The principal necessity is that of having the instruments constructed to suit the work. This opticians could do if they understood the work, but the time required they cannot spare to learn it. Consequently a good instru- ment from a good manufacturer may need reconstruction before it SPITZLI'S MANUAL. I 25 is right for the use of the textile interest. Full instructions for the care and management should accompany each instrument. Mixing. — When mixing different qualities, to produce mixtures of materials, if the several kinds go into the works at hap-hazard trouble will ensue. When cotton is mixed with wool, the mixing should be done after the wool has been oiled, if oiled at all. When waste or other short fibers are mixed with longer staples, the mixing before the picker is not enough, it will fall unevenly mixed in coming out of the picker; the lighter fibers will not fly like the heavier, or a solid lock like one more open. For fancy mixtures the mixing should not end with picking ; the cards must be ad- justed to do their share of the work also. When long and short stock are mixed, the two doffers must be adjusted to take stock evenly, or one may take long stock and the other short. In fact, mixing stock is quite a scientific process. To mix colors to produce certain shades is an easy matter for a designer who is properly fitted out and understands the harmony of colors. Mixtures. — Mixtures of textures are several textures combined or compounded rather irregularly; (not a proper term, but quite common in some districts.) By mixed fabrics, we mean those in which the materials used are several distinct kinds, as cotton warp and wool filling, silk warp and worsted filling, etc., etc. ; sometimes, also, fabrics into which inferior stock has been mixed to deceive the purchaser. Mixtures of the stock are common for various purposes. Better stock may be mixed with a lower grade to make it spin to the desired number, the latter may be used in this way to cheapen the goods, or to give the necessary peculiari- ties to the yarn or fabric. Again stock of several colors may be mixed to produce what is known by the names mixture, mixes and mixings, in different parts. These kinds of mixtures are confined almost altogether to woolens. They are used alone, in combination with each other, and with other colors. There are certain mixtures like the Cadet, Oxford, etc., etc., which are supposed to be made nearly alike at all times and all places, but this is not the case. There is a great deviation of percentage, or shade, from any one sample one may take as a standard. To reproduce mixtures it is necessary to examine the fibers of a sample and count them (this is only possible with the microscope); by this means an accurate esti- mate may be formed of the colors, quantity and proportions needed. Much depends upon a good combination of colors ; if the necessary colors do not combine right, it is well to put in a small percentage of a color which will make up the defect. A black to be mixed 126 SPITZLI'S MANUAL. " with white should be a blue black, if not, a small percentage of blue should be added to give the blue tone. A blueish red looks well in black, but it must be quite blue to look even decent in a brown. A small percentage of orange in a dark blue blends well. Mohair. — "The silvery fleece." Mohair (Angora fleece) is not a substitute for sheep's wool, but occupies its own place among the textile fabrics. It has the aspect, feel and luster of silk without its suppleness. It differs materially from wool in the want of the felt- ing quality, so that the stuffs made of it have the fibers distinctly separated and are always brilliant. They do not retain dust or spots, and are thus particularly valuable for furniture goods. The fibre is dyed with great facility, and is the only textile fibre that takes equally the dyes destined for all its tissues. On account of the stiffness of the fibre it is rarely woven alone ; that is, when used for filling, the warp is usually of cotton, silk or wool, and the re- verse. It is not desired for its softness in addition to silkiness — such qualities as are found in Cashmere and Mauchamps wool — but for the elasticity, luster and durability of the fibre, with sufficient fineness to enable it to be spun. Those who remember the fashions of thirty or forty years ago, may call to mind the camlets so exten- sively used for cloaks and other outer garments, and will doubtless remember that some were distinguished for their peculiar luster and durability, which was generally attributed to the presence of silk in the tissue. These camlets were woven from mohair. Its luster and durability peculiarly fit this material for the manufacture of braids, buttons and binding, which greatly outwear those of silk and wool. The qualities of luster and elasticity peculiarly fit mohair for its chief use, the manufacture of Utrecht velvets commonly called furniture plush, the finest qualities of which are composed princi- pally of mohair, the pile being formed of mohair warps, which are cut in the same manner as silk warps in velvets. Upon passing the finger lightly over the surface of the best mohair plushes, the rigidity and elasticity of the fibre will be distinctly perceived. The fiber springs back to its original uprightness when any pressure is removed. The best mohair plushes are almost indestructible. They have been in constant use on certain railroads in this country for twenty years without wearing out. They are now sought by all the best railroads in the country as the most enduring of all cover- ings — an unconscious tribute to "the remarkable qualities of this fibre. Mohair yarn is employed largely in Paris, Nismes and Lyons, and in Germany, for the manufacture of laces, which are substituted SPITZLI'S MANUAL. 127 for the silk face fabrics of Valenciennes and Chantilly. The shawls frequently spoken of as made of Angora wool are of a lace texture, and do not correspond to the Cashmere or Indian shawls. The shawls known as Llama are made of mohair. One of these, valued at $80, weighed only two and one-third ounces. Mohair is largely consumed at Bradford, England, in the fabrication of light, summer dress goods. These goods are distinguished by their lustre and by the rigidity of the fabric. Mohair is now extensively used to form the pile of certain styles of plushes used for ladies' cloakings ; also, for the pile of the best fabrics styled Astrakans. — Hayes. Moreens. — A certain, fabric with a watered finish. Mules. — Mules are without doubt the best machinery available for spinning cotton, wool and worsted, when fine even yarn is the first and great requisite. Muslin. — Named from Mosul in Asia. There are plain and figured muslins, some nearly as close as cambric, but much finer, yet others almost as open as gauze. N. Nap. — The ends of the fibers of which a fabric is composed being drawn out by means of a gigg or napper are called the nap; those worked out on the surface by the fulling process are also called nap, but this nap cannot be made to stand or lay down in such smooth and regular order as when gigged out. Natural Grease in Wool. — This grease is very variable in different wools as regards quantity, but the nature is similar in all breeds. The soluble part of it is produced by the secretion of the 'sweat ; the insoluble is the product of the soil and surrounding cir- cumstances. Some wools contain from 50 to 75 per cent, of their weight in grease, others only from 15 to 20 per cent. To rid the wool of this grease without attacking the fiber with the chemicals employed, is one of the secrets of success in scouring. The soluble grease is easily saponified, not so with the insoluble, which can be carried off by water only because soluble grease is the agent which retains the insoluble upon and in the wool. Needles. — There are many kinds of needles used in factories. Beside the large variety of sewing needles, there are those which on some kinds of looms are necessary to convey the pattern from the pattern chains or cards to the lifting parts. Dissecting needles are perhaps the most interesting subject here. They should be as fine I 28 SPITZLI'S MANUAL. - as possible, care being taken to have them strong and long enough for the work and instrument used. They should not have a blunt point like a shawl pin, but taper gradually to the point. At least six kinds of dissecting needles should be conveniently at hand — three or four sizes of round ones, two or three sizes of the flat kinds ; of the latter, at least one should have a bend edgewise, to be con- venient under a short-focus instrument. Neutral Colors. — The effect of these tints and colors are im- portant in textile designs. Ashenhurst says : " Suppose we have alternate stripes of red and green, or if we have red figures on a green ground, or vice versa, the eye could not rest long upon them without experiencing an unpleasant sensation ; the two colors would begin to swim into each other, as it were, and the longer the eye rests upon them the stronger and more un- pleasant will this swimming sensation become; but if the two colors be separated by black or white, or some tertiary or neutral color, then this swimming sensation will be entirely prevented, and yet perfect harmony will prevail. In the same manner, if blue and orange be juxtaposed the swimming sensation will result, but it may again be prevented by the introduction of neutral. If purple and yellow are placed together the effect is not quite so unpleasant, be- cause the two colors, although complementary, are more nearly allied to light and darkness respectively. Yet even in this case the effect is much improved by the presence of tertiary or neutral colors. Therefore, at all times colors which are complementary to each other should either be present in subdued form or separated from each other by the presence of some neutral color. In addition to this quality of modifying the effect of complementary colors, neutral colors also possess the property of modifying the effect upon each other of colors which possess the same common element. As has been shown, colors which possess the same common element, if placed in juxtaposition, have the effect of detracting from each other, but if separated by black, by white, or by neutral color, this mutual detraction is prevented or modified. If, for example, we place blue and green together, one color will partly destroy the other, and the point of junction of the two will scarcely be dis- cernible, but if we separate the two by either a black or white line we shall find the effect materially improved. In the same manner we may deal with red and orange, or with any other two powerful or bright colors, and the result will invariably be the same. In speaking of neutral colors, the peculiar properties of gold as a SPITZLI'S MANUAL. I 29 neutral may be pointed out. Although the appearance of the color of gold is decidedly yellow, yet it is one of the most neutral colors to be met with. Not only will it harmonize with any or all colors, but it will modify the effect of any two colors, or compositions of color, upon each other. It is for this property as much as for its peculiar richness that gilded frames are so much preferred for pic- tures, the richness and neutrality of the color of the gold not only tending to improve the effect of the coloring of the picture, but at the same time effectually preventing the interference in an undue degree of any surrounding colors. Gold is a color which is very rarely used in textile fabrics, yet it may sometimes be used with advantage, and whenever it is used this peculiar property may be borne in mind." Numbers. — A systematic method of numbering everything about a factory that can be numbered to advantage saves much confusion. The method of numbering yarns is given under yarn numbers. A good system of numbering styles is to have two sets of numbers, one to designate the series, another the variation of the series. For example, a pattern is ordered in eight variations. Call this pattern, series No. 1, the several changes, variations, Nos. 1, 2, 3, 4, 5, 6, 7 and 8. The term series may be improved upon, also the word variations. Separate lots of stock laid out for certain orders, the batches colored by the dyer, the warps made by the warper, the cuts by the weaver, and every sample, remnant or other piece of goods finished should be recorded with a series of numbers. The number- ing of wool, yarns, etc., is exhaustively treated by Leroux. Nut Galls. — Nut galls are an excrescence which grows upon certain species of the oak. (Quercus infertoria.) They contain gallic acid and tannin. There are several kinds of nut galls from East India, Smyrna and Aleppo, differing mainly in ripeness of the nuts. Some are black, others green or white. When mixed they are called natural galls. The Blue Aleppo are best for most dyes, the Smyrna come next. They must be ground before they can be used for dyeing. 1 Oil. — Many kinds of oil are used in and about factories. At one time the varieties were very few, sperm oil for lubricating machinery, olive, poppy or some similar vegetable oil on stock. Mineral oils 9 130 SPITZLI'S MANUAL. are now largely used for lubricating machinery, and are in many respects better than animal oils, although in some few points they are not equal to them. Consequently oils are mixed in different proportions. When well mixed, and according to the work to be done, there is no doubt, the best results can be attained in this way. Of the animal and fish oils used sperm, lard, tallow, red and elaine are the most important, and olive, cotton seed, poppy seed and palm of the vegetable oils. Kerosene and paraffine are the two mineral oils in common use. The following table of comparative weights, clipped from a periodical, is interesting : Deg. Baume. Per Gal. Naphtha 68 to 73 5f Kerosene 45 °£ Paraffine 24 7I " 27 7f " 30 7i " 33 7i " 36 7 Castor 15 7i to 8^ Linseed, boiled 19 7i " raw 21 7$ Menhaden, light 20 l\ dark 21 7^ Cotton seed n 7^ Whale 21 7i Fish 22 i\ Olive 22 7f Lard 23 ~j\ Neatsfoot 23 7$ Palm 25 7$ Sperm, natural 29 7J " bleached 29 7J Manchester 23$ 7J " Oiling wool is effected by means of a greasy substance, suffi- ciently fluid to afford elasticity to the wool. The liquid oils are, therefore, the most suitable, and the more liquid they are the better. Oil possesses the property of rendering the. wool supple and adapted to carding, the ' moist ' process, on the contrary, destroys the quali- ties of the wool by the repeated jarring and stretching produced by carding." — Leroux. From 3 to 6 quarts of oil per cwt. of wool seem to be the most common quantities used. Stock to be worked into shoddy must be oiled ; it is found that a good saponified oil is best for this purpose. SPITZLI'S MANUAL. I3I Leroux recommends a mixture of oleine and olive oil and gives a good formula for a composition which we do not feel at liberty to publish. The entire subject of oiling is treated in his work and would be well worth the price of the work to some who are sorely in need of advice on this subject. " Of the elements which analysis shows these oils and greases to consist of, two only may be considered as bearing on their use in woolen manufacture, namely, stearine and oleine, and their value for wool and soap depends largely on the relative proportions of these substances contained in them. The principles which are here suggested as governing their application may be expressed thus : First — That the successful results obtained in oiling wool will be directly as the oleine in the oil predominates over the stearine. Second — That the amount of felt or solidity obtained in fulling will be directly as the excess of stearine over oleine in the oil or grease of which the fulling-soap is made. Third — That the cleanliness of the goods will be directly as the oleine in the oil or grease from which the soap is made is in excess of the stearine. As to the first proposition, a perfect wool oil must have body enough to protect the barbs or serratures of the fiber and prevent waste, it must be diffusive enough to spread well, and it must scour out of the cloths with ease. Oleine, or so-called elaine, if an honest article could be obtained, would fill these conditions better than any other oil. The next best, when not too costly, is olive (oleine, 72 ; stearine, 28 ;) and after it lard oil (oleine, 62 ; stearine, 38). As to the second proposition, the value of the different oils and fats for fulling-soaps would be in the following order : Tallow (stearine, 70 ; oleine, 30) ; lard (stearine, 38 ; oleine, 62 ;) palm (stearine, 31 ; oleine, 69). In the above enumeration cotton-seed oil is omitted, as its composition and properties have not yet been well enough ascertained to make its use alone in a fulling-soap advisable. It may be used mixed with tallow, for economy's sake, on goods that do not require an extreme felt. As to the third proposition, the best scouring-soap is that made from oleine. The value of the other oils and greases will be in order reversed from that of their value for fulling-soaps. The rea- son for this is probably that the oleic acid has not the same affinity for the lime salts in the water as the stearic acid. The greater the proportion of stearine in the soap the greater will be the liability to decomposition of the soap and formation of in- 132 SPITZLI'S MANUAL. soluble stearates in the cloths, and consequent soapy smell. In- soluble, because the best known solvent for them, glycerine, is still top costly for use. The same evil is caused by the use of the stearic oils on wool, because the salts used in dyeing and the iron from card grinding will also form these insoluble compounds with stearic acid. The above suggestions are the result of efforts to ascertain the causes of the different action of the various oils and soaps in practice. It is not claimed for them that they are indisputable, but the results obtained in an extensive practice based upon them seem to justify the writer in the conclusion that they are in the main correct. — R. A. Clog her, in a Letter to the Bulletin of National Wool Associa- tion. Oil Spots on Finished Goods. — Instruct every hand to watch closely for oil spots, and the moment one is detected let every measure to obviate a repetition of the occurrence be attended to ; also let the goods be detained in their progress until the existing damage has been rectified ; moreover, let no such piece of goods lay in folds, that the oil spots 'may not come in contact with clean portions of the goods, or, if left in folds, let thick paper be placed between the single folds to prevent multiplication. To extract the oil from cloth, many erroneous methods and ideas are employed, and generally with unsatisfactory results ; in consequence, thousands of yards are given away by manufacturers to parties who can easily remove the grease and sell the goods for perfect. The simplest and surest process for extracting oil spots is to saturate the oil spot with benzine, then place two pieces of very soft blotting paper under and two upon it, and press well ; in some cases a hot iron is necessary, in others a high pressure, without heat is sufficient. By this means the fat is dissolved and entirely absorbed by the paper. To rub the oil spot with a sponge saturated with turpentine or bqnzine only spreads the grease. Organzine. — Silk warp threads, the filling being called tram, from Trama, Latin for weft. Organzine is an Italian technical term meaning extra-spun or machined. The organzine silk, commonly used for silk mixtures (cassimeres), is said to have 260,000 to 280,- 000 yards per pound of 14 ounces. Orleans Cloth. — Certain thin fabrics, cotton warp, worsted fill- ing. Overcoatings. — Overcoatings, whether thick or thin, coarse or SPITZLI'S MANUAL. 133 fine, should always be an elastic fabric that is as much so as well- fulled woolen goods can be. When hard or " boardy" they never make a graceful garment. The special goods made for overcoats are nearly all soft fabrics. Long nap in fancy effects have been very fashionable, but the cloth finish seems to be reclaiming its former popularity. P. Paint for Spool Drums. — Spirits of turpentine, 2 parts; linseed oil (boiled with litharge), 1 part ; Venice turpentine, 1 part ; Black oil varnish, 1 part. Paramattas.— Fine cloths originally made of Paramatta wool filling and silk warp. Pattern. — The word pattern is variously used for design, char- acter and parts of designs, but the use of it in this work has been confined to represent the limits of one complete design in the fabric. Thus, a fancy fabric may be many repetitions of the pattern. Pattern Books. — Are used in great variety as the best means of preserving samples of cloth, yarn and colors. (See books recom- mended in outfit catalogue.) A pattern book should open flat and when full be of an equal thickness back and front; the paper should be heavy enough to keep straight and not pucker (pains being taken to place samples of uniform size in exactly the same place on each leaf will permit lighter paper) ; samples should never be kept in books made of highly colored paper. If the harmony of colors is well understood special colors for peculiar samples may be an advantage, but such book should be made to order and not used at random. Almost any color looks well on manila ; many will not look well on pure white. Book paper or natural tint is very good. We advise heavy manila for common use, and white or natural tint for very nice books. It does not pay to buy machine-stitched books ; they appear well, are cheaper and do well if not much used, but they lack durability. Pattern Rooms. — All first-class mills keep one or more looms weaving sample pieces ; in nearly every case this work is done in a separate room, often in the designing room. The pattern room should be for nothing else, however, than for producing sample pieces, and for cutting them up into patterns to keep and to send to market. When the pattern room is dispensed with, it is almost 134 SPITZLI'S MANUAL. invariably at the expense of interference with regular work else- where. Good pattern looms, a large assortment of pattern yarns and many of the conveniences of the designing room are needed. Pattern yarns are not always attainable in the factory in sufficient variety ; or novelties in yarn may be wanted which had better be paid for liberally than attempted at the mill. There are a number of reliable houses who furnish yarns of every description. Such an one we consider Messrs. Tingue, House & Co. Many other firms might be mentioned. Peach Wood. — (See Brazil Wood.) Pencils. — When sketching for an elaborate design, nearly all grades of artists' pencils are called for ; to do more ordinary work the usual five grades of any good make will suffice. When a pencil sketch must afterwards be inked as little erasing as possible should be done, a mark to show that a dot or line should have been erased, often answers the purpose and will disappear when the whole is cleaned of lead. If erasure is necessary three precautions will save bad results : First, a pencil which does not disturb the sur- face fibers of the paper or make a crease, and will not smut. The smut from some pencil-marks can never be cleaned off the paper entirely; second, use smooth paper with good finish; third, always use clean pure gum. A neat draughtsman or designer will take great pains to keep his rubber clean. To sharpen a pencil cut wood well back then reduce the lead to a point with a pencil file or pad. In this way a clean, long, sharp point is made and no lead wasted by breaking. Peg Board. — An invention for the convenience of designers in working out small ground fabrics, used instead of a slate or design paper, at one time very common in Scotland. Other devices for the same purpose are now supplied, and are, without doubt, superior to the most improved pegging board. For instance, blocks either cube or thin to cover an equal area each. These may be colored in great variety ; thus aid the designer to keep tally of the disposi- tion he wishes to make of several kinds of yarn. The ruled slate, however, has many advantages, especially a double one, which can be closed like a book. Persian Carpets. — Persian carpets, whether wrought in Persia, India or elsewhere, are formed upon a vertical frame, on which warp threads are arranged. Upon these tufts of woolen yarns are knotted, and over each row of these tufts a wool thread is passed SPITZLI'S MANUAL. I 35 to bind them. Turkey carpets are made in the same manner, and some French tapestries; only in the latter a shuttle needle is used in attaching the woolen threads to the warp. Pick. — A throw of the shuttle, also one filling thread, are tech- nically termed a pick. Pick Counters. — This term is used for a variety of applications. The person who goes about the weave-room counting the picks is, in some mills, honored with this title ; while in others he may have a different appellation, and the instrument he uses for a guage is called pick counter. Some looms have an automatic machine for indicating the number of picks that have been woven during the day ; these devices also have this name. Linen provers are some- times so called. While on this subject of counting it will be well to suggest that it is better to have a two-inch guage than a quarter inch. Pickers. — This word is used for various meanings. There are Wool, Cotton, Waste, Rag, Burr Pickers, &c. ; Loom Pickers. As- sorters are also called pickers in some districts. The Wool Picker is a very simple machine, and is used for open- ing the wool for the cards. It is speeded very high, and the teeth are far apart in order to do the work without tearing the wool. Cotton Pickers are much more complicated, larger and more expensive. Burr Pickers are used by woolen mills to extract the burrs from the wool. There are several good machines in the market for this purpose. The chemical process for extracting vegetable substances from the wool is dangerous unless well understood. Rag and Waste Pickers are machines which convert rags and yarn waste into shoddy. Loom Pickers are made of rawhide, sole leather, wood, etc., etc. The picker or picking stick, being driven by cams or arms for the purpose, drives the picker and it the shuttle. Picking Out. — Picking out is a common term for dissecting ; also, when a weaver has to pick back to take out filling on the loom, he is said to be picking out. Picking Motion. — All the parts of a loom which combined throw the shuttle. Pirn. — A quill, reed or small shuttle. 136 SPITZLI'S MANUAL. Plaiting. — Plaiting was doubtless the beginning of weaving. The remains of this class of weaving have been found in the lakes of Switzerland among the lake dwellings which belong to the stone age. Poplin. — Poplins, proper are made with silk and worsted. Fab- rics entirely of worsted are sometimes so named by the trade. Porcupines. — Some comb circles are called porcupines. The name is also used for coarse gills in some places. Presses. — Many fabrics must be pressed one or more times dur- ing the finishing process. Formerly this was all done with hand- screw presses. Now the hydraulic press is used or the more recent inventions by means of which goods are pressed between a roll and a metallic concave plate, the goods being run through quite rapidly while in the other style of presses they must be folded between layers of press paper, the several pieces built up into a pile in the press with hot plates between them. Here they must remain several hours at least, and often the processes must be repeated. The press papers should be of very good stock, smooth and tough. Prevention of Knots in Wool. — " In carding there are often found knots in the wool, and the foreman should be aware of the source of this defect, for a material loses much of its value in which it is found to'exist to any great extent. The causes producing knots are : Too much moisture in the wool. Irregularities in the surface of card clothing. Unnecessary coarseness of card clothing. Dullness of the teeth of the card clothing. Faulty adjustment of intervals between the rollers ; and especially, the fancy being too far off. When this case occurs, the fancy is brought nearer the main cylinder, but not too near, however, or by its velocity it will carry away the wool from the surface of the main cylinder. The fancy ought to lightly touch the wool on the surface of the cards of the main cylinder, so as to smooth, straighten and prepare it to be hooked by the doffer. The harder and stronger the wool, the more it should be sub- jected to the action of the fancy ; and, on the other hand, the finer it is, the less it should be so treated. For this reason fancies are made of different sizes, and it may be well to add, that though many machine builders make them, only a few make them properly. SPITZLI'S MANUAL. I 37 Fancies are sometimes liable to the important defect of carrying off the wool from the main cylinder, and throwing it forcibly into the air. This imperfection is called " spitting," and results either from shortness or stiffness of the teeth, from their being too thickly set, or from the dullness of those of the main cylinder. It may be remedied by slightly flattening the teeth of the fancy, if too stiff, and sharpening those of the main cylinder, when dull. To obtain a good and advantageous result from carding, we must have : First — Perfectly oiled wool. Second — Very little moisture in the wool. Third — No irregularities in the teeth. Fourth — Card clothing to suit the nature of the wool. Fifth — Cards always well ground. Sixth — A proper adjustment of the intervals, especially in the case of the fancy. Seventh — The velocity of the doffer regulated to suit the product. Eighth — The journals of each roller frequently oiled when in motion. Ninth — A temperature of 18 to 20 Centigrade. Tenth — Clean belts. We may add, however, that a temperature Of 25 C. would do no harm in carding, but, on the contrary, would enable the wool, which is very elastic when warm, to be more easily drawn out." — Leroux. Print Cloth. — Raw cotton goods woven expressly for prints. Prints. — Cotton goods printed, or calico. Printed Dress Goods. — These are made in many ways, but the name was first given to cotton warp and worsted filling goods, or a sort of delaine when printed. Pulled Wool or Pelt Wool. — The wool which is taken from the pelt of slaughtered sheep is known by these names and several others. There are various ways of pulling wool — not exactly of the pulling, but of the manner of loosening the wool in the skin. Sev- eral of the chemical processes (notably the lime process) are very much quicker than sweating, but much more unsafe, besides leaving so much lime in the wool as to make it difficult to scour. Even with sweating the healthiest wool is easily injured, and often the damage is not fully developed until the wool has been subjected to scouring or even dye liquors. The purchase of pulled wool then, I38 SPITZLI'S MANUAL. is decidedly precarious ; even tolerable experts are frequently deceived. When wool has been well handled in pulling, washing and drying, there is no reason why it should be inferior to clipped wool of the same quality and grade, which has been clipped when the sheep would naturally shed much of its wool ; the proper time for clipping is a point of importance often for- gotten. There is no doubt that wool cut while it still has a firm root in the skin is healthier and stronger than when it has attained its full growth and ripeness, as it were ; but the growers dislike to lose four or five weeks' growth, and therefore wait. As sheep are seldom slaughtered at this time, the inference is that pelts in gen- eral have "firm wool" on them. The sweating process of pulling is simple but slow. One very successful wool-puller selects the pelts, exposes them on a large field, flesh side up, a few hours on a fair day, then piles them in his storehouse, taking pains to thor- oughly salt the flesh side before rolling up each fleece separately- When ready to pull, the pelt is washed and prepared as usual, taken to the sweating pit, allowed to remain there until the wool is begin- ning to loosen on some pelts ; these are then taken out, and the others as fast as they reach the same stage. The pullers next pull the wool, throwing the wool very similar to the manner of wool sorters. If the skin fs in good condition the wool pulls freely and without bits of skin coming with the wool. It must be now quickly dried or it will heat, become yellow and tender. It is here that many pullers lose the benefit of great pains in other stages of the processes. Pulled wool containing much lime is much more readily and thoroughly scoured if oiled with some good saponified oil, picked and allowed to lay ten or twelve hours covered up before scouring. The quantity of oil used and the time of laying must be governed by the temperature and condition of the atmosphere at the time and place of its being done, as well as by the amount of lime present in the wool. One to two gallons of oil in double the quantity of water are safe limits to give. Q. Quadrilled. — A foreign term used for " checkered," not com- mon except in trade. Quadrilled design paper is the proper name for counter ruled, like cross section paper. This quadrilled paper, to be accurate, requires much pains and time in preparing the ruling machinery, consequently perfect paper costs far more than SPITZLI'S MANUAL. I 39 the same quality ruled one way only. Nearly all reliable houses keep only a very good quality of paper, which also enhances the price; they can, however, readily furnish cheaper paper and com- mon cross-ruling to order. Quercitron Bark. — The inside bark of black oak {queacus nigra). It was formerly used, after being ground or bruised, for dyeing yellow, etc., but is superseded by flavine. Quill. — A weft bobbin. R. Raising Machine; or, Raising Engine. — Scotch and English terms for the machine we call gigg. Recess. — A crease in a pattern or fabric caused by adjoining threads worked in a manner to produce a sharp depression in the surface. Receipts. — The many receipts which may be given for com- pounds and compositions, soaps and dyes, etc., etc., have all a proper place and use, but are really practical only when prepared and used in a practical manner. In other words, only an average formula can be given ; variations in stuff used, in the process of preparation, and uses made of the receipts, can not be allowed for ; they must be left altogether to the judgment of the operator. Dick's Encyclopedia of Practical Receipts should be in every manager's and overseer's library. Like books, also others quite different yet very valuable, and a host of receipts for dyeing, are extant, all containing many valuable receipts, while not a few are worthless. Record Books; or, Memorandum Books for Designers, Superin- tendents, etc., should be of convenient size, good quality paper, plain ruling, and pages numbered. Account books will answer, but the size of book, excepting thickness or number of pages, should be same as the design and sample books. To keep a record of everything one learns, is a trivial task ; the benefits afforded there- by may be inestimable. The difficulty some experience in acknowl- edging new accessions to their stock of knowledge is a serious matter, and no credit to any one. In keeping a record, write con- cisely, never hastily. The arrangement of the book should be a specimen of systematic habits. It is sometimes necessary to make 140 SPITZLI'S MANUAL. a memorandum hastily ; have a special book for this, and copy from it at leisure. Reeds. — Reeds are a series of narrow strips of metal, between which the threads of the warps pass in the loom. The purpose of the reed is two-fold — to keep the threads evenly divided and to strike the filling in many places in beating up. The derivation of the name is from the material used for the narrow strips years ago, viz., split reeds. The writer has a very fine reed of this description still in possession. The origin of the word split, for dent, is also explained by this allusion to the original material used for reed making. The coarser the reed, to a certain extent, the easier the picks go into the fabric. The finer the reed the smoother the goods, and with perfect reeds the less reed marks. Reeds may be unevenly set ; the wires may not stand parallel with the warp ; the wire may be too thick, thin, wide or narrow for the work in hand ; indeed, a perfect reed is not so easily found as needed. The thread in each dent should be such as to be the same in each repeat of the pattern. Threads riding each other may often be remedied by a different number of threads per dent, or by taking different threads of the pattern in the same dent. Some patterns look best with all the threads of the same texture together in the same dents ; others are much improved by a different division. Reeds are damaged more by careless handling and abuse than by actual wear and tear necessary. Flat steel wire is now considered the best material for reeds ; brass and iron are too soft, and once bent do not spring back into shape and place. Rules for estimating reeds may be found further on, under the head of Rules. SPITZLI'S MANUAL. TABLE OF REEDS, 141 Showing the Threads per Dent, No. of Reed, and Threads per Inch. a Q C Q G U a C U Q c 1) c Q ° Q c V j- M c c Q ° 1 -s 8. jJ ■a 0- X. Ifi u •0 c ft £ a M u (A O (4 HH S 3 8. 6 ■/> <^ -0 „, c « r U H x i/i ft H js ft ^ f ft a "-S V ^ J= g in ft ■a £ •n H 8, s ■>-> o 3 •* 3 "a" ° CO -^i io»o co oo t-t-os 00 ere CO C5 ireiOOO' Mojo-*«ooo50oO'*w«ai«'*ioosost-«toooO'^T)i'i-i £« tn « oi h - o ^8? SO ere ere -* ■>*■<* JO -* 00 00 co ere co ere "* CO J T-l ©i T-H tH CM ere ere t-i HCOHCOH C4i-H NWH M « N H rH s^COCO^COCOCTOSCOtHCOOV 0050000t-£>t-CDCOC010iaiOlOTt<*<#"<#"'*TtcococoiO»o»OiC-^'^ | '^ |- ^'*'^coeococo r rllOM»)ff)rlHrlHHH ere oooo CO lO iO lO 00 lO »C IO »o K5 00 acre^coo^creereiooscreT-i^^^o^ereerecoco^ooeret^Nj^coiOT-iooiaTHCss S-HCSiWCOOJCOCOr-l H«B5HCO« CO ere t-I COWIMHH COM«C?e3H u> " o 3 fc S8 2 00 CO IO« ««« ere ■># -^ 00 CO 00 CD ere 00 STj(«co^«^oo«T)HT)(«0'*i>coocoiooocsj!OTHNCO'*o«oeooooiOKiO ^CJt-H CI T- I tHt-It-IOJ CQ «H COCQHrt mwwwhhh 5cOC0CrecOC0T-iOsa0i>COCOlOJO^^^C0C0C0C0C0C0ere©?CrecreO}erecre©}ereCreere .a.Sf^a ■>* -* lOCSCftt- iO OS CO CO CD « T-i CI "# CO i;oio®MOcoi>siioiO'*' co t-i oo 10 co co co weoH t-< ere tj< t> ■>* oo ere "'^MOwwxeoeoo^cR-^ooTtiHiocoHOMt-fflio^cowTHOoacoco J~ ere i-i ere t-i ere t-h co w h ih h co co co co ere ere ere ere ere ere ere ere ere ere h th • S,COCO»Ot(C0C0050SOOTH'HCJCJC0Ct5T)i'Tfl0U5«l5e *S-*3 .* 3.H O JJ 3 U o HsCmE Ph£2 o o o v o ■- P.C Pin w o 3 ^ « w ^ r/i w i ^ rti -« ro r, a^ n i 01 rv > r\"> ro _-< — i —i — i — -* — (—*_*_< — i _< _i _* — ( -^ _^ -^ COfflrHQO®IO^-^MKICOO) CM CM CM CM 4> t^ u: iO CO CO 00 CO CO CM 00 £ CM r-l CM t-h CM CM Nfflrlrlff) CM CM CM CM CO r-i CM CM (NHCOO! CO CM s,<0aDl0aM«lOOlOrt(BOT|l«rtffi00t-(CiOIO^M05«9lrtTHOOO0)O r^ — i i^i <• — -I i - ?^ i^ — h m n-i ^-i o> ^> ^> r~» rv> -. — i — i — i ~_ i — i — i — i — i — i — i , — i , — i -. — i , — i , — i -. — i CO®©^ CM -■# «5 3.5^55 co co co CO CO 00 iO t-h £> i> "<# CM £> CO COtJH ScOrH^Cfflt-OIOHQOOWHOQOt-OlO^^COJlWHHOOOfflOffiCOCO ^CO-^CSOiO-^TfOOMCiCfCiWClrtrHrHrHHHHrHT-lT-lTHHHiH 2^CMCMTtlCMCOCOO:!CM^aOOOCOrHCO^TilOTrH©3 10^rH^^C5rHOOJ>CMr-lr-ICO ^WrHCOOJHn H«« r-l CM CM CM CM t-i CM CM CM C0i-( COCMtH 2oMCOfflM-*Q005C»i»-*0005i>«Cin'*T)(CO««HHOOOJC»CftQOCOCOCO ^tOCOK©IO'*meOC)«««Mr-lHHHHHlHrHHHHl-IH *2i5 3 .* 3-- O ■ SJ.S^ffi f^S 8 o Soom«OHOrtMo«offl£"®0'*»M(SHHOOOC)oa)o[)ooeot-t- ^IOC!00®lO^MmSiWnC!niHHHHTHTHHHlHHlHH *S8o in o " -^ 00 00 CO CM 00 S«^co«^ci««m«cD©»^orHco^o^MjTHCOcoo« £hM«H«KIH SO t-h tH CO « « (N OJ CO ih « CM CM r-l CO CM r-l CMtHtH 2cOOi>CO©XCOC»10CO>HOH>«lOT)i>t-C- ^Mril'O^mM«CS!0!ff!riiHrtHrtHiHriHHHH i> 00 IO Ci OJ ^# IO CS CO "'^ClCOBM^^COOl^lOSiMfflfflCSOO^OOOlOH^WOOt-COjOCOO C«rH ^H CO CM CQ SJ i-i H rH « HCOHCOH CM r-l CM r-l COCMCM J~ CM ■ ?©COHi*CO©Oi>^i-ifflCOffllO"*CO««HOOfflC»C»COCOCOi>!>i>©©ffl ^nOi>OilMCOO)«ClTHlHHlHHTHHrtlHrlrt cm ■* oo ^* oo co •«* "-S8o >0 CO 2oO«OOMaOiO«OCO(OW'*eo«HHOOO©«Ot)OOr»t"f>»(0!0®0 ^OOfOIOitmiMIMCXSi-liHHHnrlHrtHrl OOOIO^CO«S!«S} r-l CM -* t- -* OOCM P -rfl IO CM IO CO CO CM iO SO i-H »«^T|iO^OfflmoiN^OMM»»COfflMOONlOM««COOH^«©0 ,5 r-l CM COCMCM CO rH th CM i-H r-l CM CM CMrHCOCM-rH CM r-l r-l CO CM CM ? Klr HH10ffiO©WOC0®l0TjiMSJHOOC»C6C0a0t>£'i>i>©©©©10W10 ^COCl©rJICO03S!««HrHlHi-liHiHrHHi-l lOiOoioooowowoooiooioowoooioooowoioojoojg r>H«0)M05r|lTtil0 1O©Ot-l'00»»aiOOHH«nC0C02^2222 i 4 4 SPITZLFS MANUAL. Reels. — Measuring Reels are used principally by spinners and designers to measure samples of yarn before weighing to ascertain the size number. This machine, although small, is expensive ; to be really useful it must be accurate, well made and finished. There are many kinds with registering dials, etc., which add to the cost. A measuring reel for measuring cloth as it comes from the loom was invented not long ago, but the inventor has withheld it for further improvements. Yarn Reels, for winding the yarn from bobbins, are also used in great variety. Some very complete machines of this kind are made by a firm in TawtUcket, R. I. It is economy to use a good reel; the character of the skein is an important point when it becomes necessary to wind or spool the yarn again. In tieing the parts of skeins together care should be taken to tie with binding yarn that will not break too easily, making knots that will not untie, at the same time tieing loosely that the dyer may easily slip the binding yarn several times while in the kettles (necessary to get some colors even on the skein). The binding yarn used to tie several skeins together should be stronger still and tied more loosely ; the dyer must lift this yarn by these ties several times while the yarn is very wet and consequently heavy. It is well to have two distinct kinds of binding yarn for these two purposes. The ends of knots should not be longer than one inch on the binding yarn. When the skeins must be taken apart, it is a loss of time if the binding yarn is so strong that it cannot be readily broken by the operative/ Dye-house Reels are in many instances clumsy, inconvenient con- trivances, some driven by hand, others by belts and only here and there as they ought to be by shafting and clutches. A man to turn the reel is very expensive power. The reels should be almost round if goods are injured by bar marks in draining. The writer has seen, in one dye-house, drums two feet in diameter ; they were so arranged as to be turned at slow or high speed in either direction by simply throwing in a different clutch. The slow speed was used for winding up and passing the goods through the liquor, the quick motion was applied when the goods were upon the reel alter the dyeing process was finished. Before starting the high speed a sort of cap or screen was dropped over the reel ; the rapid revolution of the reel extracted the dye liquor in the goods, the screen was so arranged as to keep it from flying about the room and cause it to drip into the kettle. SPITZLFS MANUAL. 1 45 Repellants. — This class of goods was at one time known as Water-Proof Cloaking. Very few pieces sold as such, however, were water-proof. Cotton warp and woolen filling are the materials used. From 3600 to 5600 threads in the warp and from two-run to seven-run filling are the limits within which the writer has made a large variety of these goods. The size of cotton warp and the tex- ture are varied to suit the demands of the market, varying very much in weight and the amount of cotton to be shown oh the face. In using low stock for filling great care must be taken to keep with- in due bounds, or tender goods will be the result. We give four of the most common textures : A B C D 4DDD* 4DDD* snnnn* 6nnDnn* 3DD*n 3D*nn 4D*DDD snn^Dnn 2D*nn 20D*Q 3DDn*n 4dDDn*D i*DDD !*□□□ 2*DDDD 3D*nnnn 1234 1234 iDD*DD 2nnn*DD 1 2 3 4 5 6 i*DDDDD 123456 As regards the finish of these goods, we would say, full thor- oughly, as quickly as possible, without allowing the goods to get very warm ; heat and soap permanently fix the stain upon cotton which comes from the colors of the filling. To get a good mill nap some finishers gigg lightly before fulling, but it must be done very evenly and with great care or the goods will be tender. If the cot- ton must not be very white the goods may be steamed or boiled. Ribbons. — "The original meaning of the word ribbon is a long web of silk, worn for ornament or use. Ribbons of linen, worsted, gold or silver thread were formerly included in the term." Ribbon in French is ruban ; in German and Swedish, band j Danish, baand. Silk was early wrought into ribbons, and for centuries one web was made at a time ; great numbers may now be made at the same time in the same loom. The shuttle of the ribbon loom is not thrown, but is governed by positive motion. It is in this particular method of the shuttle motion and the other necessary arrangements for nar- row webs that the loom differs from others. Ribs — Narrow raised stripes in fabrics are called ribs. Some- times wide ones also, but the proper application of the term is to small or narrow effects of this kind. Roving or Roping. — The untwisted strand of fiber ready for the spinning machine. All strands in machinery before that producing roving .are called slivers, slubbing, rolls, etc., etc. Some rovings are not twisted at all, while others must have considerable twist. 10 1^6 SPITZLI'S MANUAL. This difference is due altogether to the kind of machinery used, and the variations in amount of twist to the kind and condition of the stock in hand. The size of the roving is almost always larger than the thread to which it is to be spun ; the difference is also con- trolled by the machinery, kind and condition of the staple. Rubbers. — The condensing rolls on a card. Rubber springs on many machines. The kinds of rubber needed by the designer are : First, a piece of pure gum; second, some sponge rubber; other kinds for erasing may be added for special work. Rules. — Yam Calculations : To find the quantity of yarn required for a warp, in runs — (a) Multiply the number of ends by the length in yards and divide by 1600. Example. — 3,200 ends X 300 yards=o6o,ooo yards-7-1600 yards = 600 runs. (b) Multiply the number of biers by the length in yards and divide by 40. Example. — 80 biers x 300 yards= 24,000-^-40=600 runs. To find the size of a woolen thread when composed of several minor threads — the size numbers of the single threads being known. (a) Divide the product of the size numbers by their sum. Example. — A 2-run and 3-run thread being twisted together, what is the size of the two-fold yarn ? 2 x 3-J-2 +3 = 64-5=11 runs. Example. — A 2-run, 4-run and 6-run thread being twisted together, what is the size of the three-fold yarns ? 2 X4-J-2 + 4=8-7-6 =i| Runs, if X6-Mf + 6=8-r-7f=i f I T Runs. (b) Find the actual weight of the several single threads per yard in grains ; divide 7000 by their sum to find the yards per pound. Divide the yards per pound by the number of yards per pound of No. 1 yarn ; the quotient will be the correct size. Example. — 2-run and 3-run together. A 2-run thread weighs 2^0 °f an ounce per yard. u cc (t u _i_ " a " J 3 20^ + 3^0=1 ounce per yard. 7000-^=8400 yards per pound. 8400-7-1600=5^ Runs, or 8400-7-840=1^0. 10 (Cotton.) To ascertain the number of threads in a warp, the number per inch in finished goods being known, multiply the threads per inch by the number representing the finished width in inches. SPITZLI'S MANUAL. 1 47 To ascertain the quantity of each kind of yarn in a warp, the length, number of ends per warp, and the threads in each pattern being known, add the number of threads of each kind of yarn per pattern together; the sum will be the total number of threads per pattern. Divide the total number of ends in warp by the ends per pattern ; the quotient will show the number of patterns per warp. Multiply the number of each kind of threads per pattern by the number of patterns per warp ; the several products will show the ends of each kind of yarn per warp. Multiply the ends of each kind of yarn per warp by the length of the warp in yards; the sev- eral products will show the yards of yarn required of each kind. To ascertain the quantity of filling required for one yard of cloth, multiply the threads or picks per inch by the number of inches representing the width of the goods ; the product is the quantity of filling required in yards.* Reed Calculations. — The threads per warp and threads per inch being known, find the width by dividing the total number of threads by the threads per inch. The threads per warp and the width being known, find the threads per inch, by dividing the threads per warp by the width in inches. The threads per inch and width being known, find the total num- ber of threads by multiplying the two known quantities. When the threads per dent are regular, to find the threads per inch, multiply the threads per dent by the dents per inch. When the threads per dent vary, find the average number of threads per dent, and proceed as above. Example. — What are the threads per inch when the warp is reeded as follows in a No. 15 Reed : 2, 4, 4, 2, 3, per dent, (making 5 dents per set.) 2 +4 + 4 + 2 + 3=15 -=-5=3 threads for the average. 3 x 15=45 threads per inch. It frequently happens that the average number of threads in- cludes an inconvenient fraction ; to avoid one calculation with this fraction, multiply the sum of the contents of the dents, by the dents per inch, and then divide by the dents per set. * Note. — The shrinkage of the goods must always be borne in mind, and in- cluded in estimates. Allowances for " take-up " of yarn in weaving, waste, etc., must be taken into account. Arbitrary rules in relation to these allowances are of little use ; there is much variation in different mills and under different circum- stances. The convenience of minute records on such subjects is apparent. I48 SPITZLI'S MANUAL. Example. — What are the threads per inch when the warp is reeded as follows in a No. 15 Reed : 3, 4, 4, 3, 3, per dent, (making 5 dents per set.) 3 + 4 + 4 + 3 + 3=17 X i 5 =255+-5=5i threads per inch. To Estimate the number of Heddles required upon each Ha? 7iess. — Multiply the number of threads on each harness per pattern by the number of patterns in the entire warp. Example — Warp, 4,800 threads. Drawing in draft reads as follows : 1 2 3 4 — — 7 8 — — — — — — 3 4 — — — — — — 11 12 1 2 — — — 6 — — 9 10 — — 1 2 3 4 5 6 7 8 9101112 No. of Th'ds per Patterns Harness. Patterns. per Warp. i._ 3 x 160 = 480 2... 3 x 160 = 480 3 3 x 160 = 480 4.- _. 3 x 160 = 480 5 -. 2 x 160 = 320 6 2 x 160 = 320 7 2 x 160 == 320 8._ 2 x 160 = 320 9 3 x 160 = 480 10 3 x 160 = 480 11 2 x 160 = 320 12 .. 2 X l6o = 32O Total Threads 30 4800 When the drawing-in draft is very irregular this method is con- venient because so easily proved. Samples. — It is highly important that every factory preserve samples of all the kinds and variations of goods made, also samples of the stock, yarn or colors which cause the variations, with lucid records. If it is important for the factories, it is doubly so for man- agers, designers and overseers. Sample books are perhaps not to be depended upon as evidence of much knowledge, however well filled ; but they may show an extensive experience, and their con- dition will indicate many habits of the compiler. SPITZLI'S MANUAL. 1 49 Sample Yarns. — Ashton recommends that a collection of samples, accurately numbered, be used for comparison until great familiarity with yarns makes them unnecessary ; he advises washed yarns only. The better way is to take a liberal portion of the samples of each size, wash it thoroughly, when dry (let the skein hang loose while drying) label it with the numbers, showing the then actual weight and size, by all the most common systems of numbering ; to the clean skein tie the remainder of the skein of raw yarn, similarly labeled. If then the raw yarn is numbered by the spinner, and the washed yarn is renumbered after shrinkage, the comparative shrink- age of different sizes will also be exhibited by the difference in marks upon the labels, clean and raw. Other comparative memo- randums may be attached, all of which is little trouble. The bene- fit in return is inestimable. Sanders or Saunders. — This is the wood of a tree grown in the East Indies. Is harder and more resinous than Barwood or Camwood, but considered by many as a species of Barwood. As- tringents such as sumach, galls, etc., help to extract the coloring matter. Alcohol will extract it entirely. This wood requires more boiling than any other dyewood to extract the color. Satin. — Real satin is a silk fabric in which the warp is allowed to float over the filling in a manner covering it entirely and present- ing a smooth, lustrous face. Satinets. — Are part woolen fabrics, in which the face shows only the woolen filling, the cotton warp being less prominent or out of sight. A good satinet is a very serviceable piece of goods, and many a workman would be content with a satinet suit if well made ; but few satinets can now be produced without the introduction of an excessive amount of short staple, the ruling market prices being so low. Satinettes. — A cheap imitation satin. Scouring. — Scouring implies a more severe treatment than wash- ing. Scouring wool and woolen goods is an exceedingly important branch of woolen manufactures ; besides requiring, on the part of those in charge, a thorough knowledge of chemistry, as far as applica- ble, it also demands a wide experience. The water should be analyzed, the nature of the chemicals used and their action upon the material and impurities thoroughly understood. Selisia. — A cotton fabric quite firm, with a gloss finish upon the face side, used for lining. i5o SPITZLFS MANUAL. Selvages. — The selvage is a narrow band woven on the edges or sides of goods, and, in some way, made to ornament rather than detract from the general appearance of the piece when right and as they ought to be. To neglect this is quite common among opera- tives; for this there is the excuse of ignorance of the importance of selvages, but there is no excuse for those who have had better advantages to observe the benefit of handsome effects. Handsome because clean, clear, perfect and in proper contrast of colors or fabric or both. The selvages must endure more chafing from the shuttle and reed than the body yarn, consequently, they should always be made of yarn a little stronger than that used in the main fabric, unless there is special and good reason for the contrary. Selvages are made long and short, etc., for the same reason as the edges (which see), but all troubles of this kind are usually worse in selvage than further in. There is another cause for long and short selvages, which is independent of the body goods, and that is the difference of texture between selvage and cloth adjoining, which will occasionally make the warp and selvage yarn take up differently. It is sometimes necessary to weave two or more widths in one loom, in which case it will be necessary to bind the outside selvage threads where two selvages adjoin, or the selvage will ravel out easily. This is done by means of a pair of lace heddles for each inside selvage. Selvages should be neat and show good taste. Ugly selvages on a good piece of cloth may be compared to an old hat and boots on a person otherwise well dressed. Sets. — Certain complements of machinery or parts thereof, threads, patterns, etc., etc. The " set " of cards includes all the cards through which the same stock must pass to complete the pro- cess. For woolen carding three cards, differing only in the manner of entering and delivering, size of wire and speed of certain parts, complete the most common set. In worsted cards or scribblers the several cylinders are usually all combined by one frame, thus making one machine of what at one time were separate parts of a set. The number of cards in a cotton set vary very much. (See Sett.) Sett. — A term used in England " to indicate the pitch or the fineness, or the distance apart of the warp threads as they are separated or distributed over the fabric by the reed. By the Lock- port system the sett is indicated by the number of reeds or splits per inch ; and the number of ends through each split is understood to be two, unless when otherwise expressed; consequently what SPITZLI'S MANUAL. 151 would be termed a thirty sett would represent 60 ends per inch. The great variety of setts used in England is well set forth in the following quotation from Thomas R. Ashenhurst : " If we leave Stockport and take what is known as the Manchester and Bolton system we have something totally different. By this system what is termed the sett is the number of Beers of 40 ends each in 24^ inches. If we leave Lancashire and enter Yorkshire we find different systems again in use. At Huddersfield the old sett system was based upon the number of Beers of 38 ends each in 30 inches, but I understand many of the firms have abandoned this and adopted the reeds per inch as their sett. If we go from Huddersfield to Holmfirth, a distance of some six or seven miles, we find their system is based upon 10 ends per foot, so that if there are twenty times ten ends, or assuming two ends in each split, twenty times five reeds in one foot, it would be termed a twenty sett, or if reduced to the same system as the others it would be the number of Beers of 40 ends each in 48 inches. If we take other woolen districts we shall find the calculation based upon the num- ber of Portits, Porties, or Porters, as they are variously known, in a given number of inches (the Portit and the Beer are the same thing known by the different names in different districts.) The Portits, as well as Beers, are variable quantities according to the custom of the district, and the number of inches which is taken as the basis is different also in each district. If we leave the woolen district and come into the Bradford worsted district, we find the sett system based upon the number of beers of 40 ends each in 36 inches. In Scotland the sett is reckoned by the number of reeds in 37 inches, thus if there are 1200 reeds in 37 inches it would be called a twelve hundred reed, and there are always two ends through each split un- less otherwise expressed, consequently a twelve hundred set means 2400 ends in 37 inches. In some of the silk manufacturing dis- tricts the sett is indicated by the number of reeds in the width of the piece, and the ends through each split stated at the same time; thus there may be 1200 reeds in 18 inches, and eight threads in each split. It would then be called twelve hundred eight thread, eighteen inches ; or if the piece was 24 inches wide it might still be a twelve hundred eight thread. But in the one case there would be 66f splits per inch or 5333- ends per inch, and in the other case there would be 50 splits or 400 ends per inch. I have enumerated only a few of the systems in use ; it would not be very difficult to increase the list considerably, but those I have named will be sufficiently representative for our purpose. To convey a little more 152 SPITZLI'S MANUAL. clearly to your minds what these different systems represent I will make a few comparisons. Most people engaged in the Bradford manufacturing trade are familiar with the term 60 sett. By Bradford system 60 sett represents 66f ends per inch. " Stockport " 60 " " 120 " Huddersfield " 60 " " 76 " Holmfirth " 60 " " 50 " Bolton " 60 " " 98H " Or to enable me to include the Scotch and silk trades in the comparison, I will take a Bradford 60 sett and I find it will be equal to Bolton 4°t 5 2 Stockport 33% Huddersfield 52 on the old system. Huddersfield 33^ on the new system. Holmfirth 80 Scotch 1233^ Silk 800 two thread 24 inches." Shed. — The separation or opening in the warp threads on the loom, made by means of the harnesses or the jacquard machine for the shuttle to pass through, at the same time leaving a thread in the shed which is beaten up to the cloth by the lathe. The shed is then changed for the next passage of the shuttle ; each such passage is called a pick. Upon the correct timing of the opening and clos- ing of the shed, upon a perfect, clear, neither too high or too low, too tight or too loose a shed much depends. Open the shed too late or close it too early the shuttle is more or less obstructed in its passage. The evil may be so bad as to throw the shuttle out, or only to make the warp go bad at the sides, but to whatever degree this evil exists, rough and imperfect edges in the goods is a sure con- sequence. Too high or too low a shed is often the result of heed- lessness in starting a warp, sometimes the loom fixer tinkers with the shed motion to make the shuttle behave, when the trouble is in the picking or box motion, which must be timed correctly as well as the harness mechanism. Tight or loose sheds are not altogether produced by the take-up and let-off motions. If the whip roll and breast-beam are both too high, the lower shed will be tight, the upper one loose, the contrary position of these two pieces or parts will reverse the effect on the shed. When only one of them is out of line the evil is not so perceptible in the shed unless there are many harnesses, in which case the harnesses near or far away from SPITZLI'S MANUAL. I 53 the part in wrong position will be differently affected, which will cause an uneven shed. These are points which prove seriously troublesome in some goods, while in others they must be made use of to produce the right effect or to humor a warp. Shoddy. — Stock which has been recovered from yarn or cloth by conversion into staple sufficiently good to spin again. There is a great difference in the success of different operators with the same stock and machinery. Shoddy is very useful, almost indispensable in some kinds of goods ; it will yield a better nap than longer stock. Shoddy made of old rags is not good, being lifeless, lustreless and cannot give goods the proper character or strength ; it is from ex- cessive and fraudulent use of this class of stock that the prejudice against shoddy has arisen. Good shoddies may also be used to excess, and the goods weakened thereby, but the expert manufac- turer discovers the difficulty before the goods are made by the reduction of product — a serious matter in American manufacturing. Flocks are not shoddy, in the present use of the word. Shoddy Pickers. — These are only a variation of the waste pickers to adapt them to the more difficult work of unraveling cloth instead of yarn. Shellac. — " Shellac or lac is a resinous substance which, in India, flows from certain trees in the form of lucid tears, in conse- quence of punctures made upon their branches by a small insect. Shellac is very apt to be adulterated with common resin, and hence, unless when a pale lacquer is required, most artisans prefer seed lac. When lac is mixed with a little resin and colored with vermillion or ivory black it forms sealing wax. Shellac is soluble in alcohol but not in turpentine. It is also soluble in alkaline solutions, 'including ammonia. A solution of borax in water dissolves it readily, and the resulting solution has been used as a cement, as a varnish, and as a basis for indelible ink. It is much used by hatters as an insoluble cement." — Workshop Companion. Shuttles. — Shuttles are the vehicles for carrying the filling into and through the warp shed. Upon the employment of the proper shape and weight in shuttles much depends in the running of looms. In the particular of quality and kind of wood used in shut- tles Europe is far in advance of this country, and American manu- facturers suffer not a little, from the false economy exhibited in the purchase of cheap shuttles. Silk Mixtures. — Any fabric in part made of silk may properly 154 SPITZLI'S MANUAL. be called a silk mixture ; but the goods known by this trade name are cassimeres wherein fine lines or dots are produced by the intro- duction of a small percentage of silk threads, with or without twist- ing the silk with a woolen thread. Silk mixtures cannot be fulled so much as some other goods, and should be cautiously cleared on the gigg, not depending upon the shear for anything but to shorten or cut off the nap. Sizing. — Sizing upon goods and yarn are applied for various purposes. In goods to give weight, to afford a proper base for printing, on some worsted fabrics, for a preparation to subsequent cleansing, etc. On yarn to weight it, to fit it for the wear and tear it must be subjected to in weaving, etc. Many recipes for sizing may be found in works on Warping in the "Queries and Replies," Webb's "Warp Sizing," Dick's " Encyclopedia of Practical Recipes," &c. Soap. — The manufacture of soap for use in factories is a branch of no little moment ; the opportunities to deceive are so great that the most unscrupulous practices are common, so much so that it behooves manufacturers to trust to no recommendation except extensive tests and trials under the most careful supervision in their own works. We give a common formula for a cheap oil soap that may be varied to suit many kinds of work. This in particular, because it is a soap that may be made and used in many factories : For 6 barrels of red oil fulling soap, 50 pounds of soda ash, 6 pounds of rosin, 36 pounds of saponified red oil ; water to boil be- fore putting in soda ash, then rosin, then oil. Boil four hours. For scouring soap same as above, except 60 pounds of soda ash, 6 pounds of rosin, 14 pounds of saponified red oil. The more oil the heavier body of soap. Some boil in one-third of the water, and add balance when nearly done. Spinning. — Of spinning little more can be said than of carding. The subject is at this time being very extensively discussed in journals devoted to manufacturing interests. The consideration thereof is therefore deferred for the time when a revised and en- larged edition of this work will permit a thorough and exhaustive treatise. Splits. — The dents in a reed are called splits quite as often and commonly as dents. Spontaneous Combustion. — The frequent recurrence of fires from this cause has led to many theories and some scientific in- vestigations of the subject. Clean, dry stock of any kind seldom SPITZLI'S MANUAL. I 55 ignites ; but, as the use of oils and dyes are indispensable about a factory, the greatest caution is not always sufficient to avoid this danger. Spooling. — Spooling yarn implies that the yarn or stock is being put upon spools. In the carding room the sliver is sometimes taken from one card in coils, a number of which are put upon a large spool, from which the stock passes into the next card ; this or any other process of spooling sliver or drawings in carding and spinning is being rapidly superseded by more convenient methods of trans- ferring the stock. Yarn is spooled in many different ways according to the purpose for which it is done. There is spooling from the skein, from bobbins, or from spools. There are machines for putting one thread upon each spool, yet others for 20 to 120. On machines of this latter kind there is usually a measuring device that the exact quantity upon the spool may be known or regulated. Upon even and careful spooling the subsequent process of warping is very dependent for good results. The process seems simple, but it is so important that the common practice of placing it in charge of ordinary ability causes a greater loss in waste than is gained in wages. Spools. — This term now implies a barrel and two heads ; the variety of spools is legion, and for each kind there are many ways of making and fastening the heads. The most durable are the best, provided the wood is such as to wear smooth. Too much economy in bobbins and spools costs many mills more than the price of a full set every year. The principle that by keeping the factory in want of bobbins is the best method to keep down the surplus stock, may deceive some, but they had better apply more beneficial methods, and produce the result in a less costly manner, if it must be done, which is altogether a question relative to the character of the surplus. Stop Motions for Looms. —These are devices for stopping the loom when a shuttle fails to reach its box; others when the filling breaks or runs out, and yet others when a warp thread breaks. The first are now on all power looms in some form. The second are quite common for plain looms, and being introduced for fancy looms. These stop motions are both expensive and not always a saving, since they have been known to do much damage by marking the goods; this is, however, owing to a failing in adjustment of the feelers, or the peculiar kind of goods woven. They must be well understood to prove satisfactory. The warp stop motions are not 156 SPITZLI'S MANUAL. yet adopted in general use, the mechanism required being so deli- cate and complicated that the device will serve better as a curiosity than anything else. Notwithstanding this fact, however, the in- ventors have displayed an unusual amount of perseverance and ingenuity. Strippers. — The small cylinders upon the carding machines which strip the stock from the workers. This name is also applied to other devices for the same work, to the persons who clean cards, to the hand cards used in cleaning, etc., etc. The last-mentioned are made in many ways ; what is called the English pitch is much preferred by most carders now, but some have become prejudiced against the English pitch on account of failures in American imita- tions, the leather used being poor or the bend in the wire being in- correct. Stripping Cards. — To unclog the teeth it is not enough to rub the hand card over the roller, for evidently we should only injure the teeth without reaching all the wool kept in the card clothing. The hand card is taken in the hand, the teeth nearest the handle placed upon the teeth of the roller, and the wool pricked by raising the head of the card ; a slight motion is then given it, which draws out the wool. After having stripped all the cylinders of the breaker, they are treated with emery and finishing cloths. For stripping the teeth of a fancy, a comb with steel needles has been successfully used. Sumach. — A native plant of Syria, now cultivated in many other parts, notably in Spain, Italy, Portugal and Sicily. It is brought to market in a powdered state. The odor, when a decoction of it is boiling, is not unlike that of good tea; the color, fawn drab; acids make it more yellow, and the alkalies more brown, or toward orange. Ground Sumach contains about one-sixth of its own weight of tannin. T. Tables. — The use of tables is to save time and labor ; there are unlimited opportunities of increasing their number and the useful- ness of many extant. Several pages of this work are devoted to tables in daily need by many. They are not so elaborate as some, but on the other hand they are simple, convenient, accurate and large enough for many purposes. Lawson's reed table is more complete in detail than those herein contained, and is in the form SPITZLI'S MANUAL. I 57 of a sheet which may be framed or mounted, a feature desirable in some instances; indeed, some prefer this form to those found in books because the entire table is in full view ; on the other hand, it. cannot be used so conveniently in combination with other tables or stored away as a book may be. Some of the tables are also to be found in other forms elsewhere, but the table of the capacity of looms is new, and when well understood will be in constant use. Tapestry. — Tapestry is an ornamental figured textile fabric of worsted or silk for lining the walls of apartments; the term also includes carpets and other fabrics, for household decorations. The manufacture of tapestry, such as carpets, oil-cloths and lace, is localized in peculiar districts in a remarkable manner. Kidder- minster, Wilton, Glasgow and Halifax contain extensive factories solely engaged in the production of the various descriptions of car- pets in ordinary domestic use. The application of the power loom to the carpet manufacture is recent, and its use is extending. There are a great variety of combinations of materials, many of which indicate a remarkable departure from the ordinary method of manufacturing carpets and similar objects. One of these is a species of mosaic tapestry, where the cut wool is fixed to a ground or foundation of caoutchouc. Tappets. — Changeable cams used on looms for various purposes, the tappets for the box and harness motions being the most com- mon. When the cams are fixed so that no others can be con- veniently put in their place the looms are commonly called cam looms. When the cams are changeable they are called tappets, and consequently the loom a tappet loom. Teasing, Teaseling, Teaselling or Teasel. — The Scotch and English use this word for the operation here called gigging. This accounts for the name of teasels. Teasels. — "[A-S., toesel, taesel, the fuller's herb; O. H. Ger., zeilala, id.] [Written also tassel, tazel, teasle and teazle.] 1. (Bot.) A plant of the genus depsacus, of which one species (D. fullonum) bears a large burr or flower head covered with stiff, prickly-hooked awns or bracts, which, when dried, is used for rais- ing a nap on woolen cloth. 2. The burr of the plant. 3. Any contrivance intended as a substitute for teasels in dressing cloth." — Webster's Dictionary. For further particulars of using and setting, see gigging. I 58 SPITZLI'S MANUAL. Teasers. — English and Scotch for giggs, for the people who operate them, and in some sections for wool pickers also. Temples. — If a weaver understands setting them up, and attends to it faithfully, the old-fashioned bar temples will do most excellent work. But weavers are not disposed to be bothered with temples if any automatic contrivance will do the work. The rapidity of power looms makes it difficult for a weaver to see imperfections on the small space of goods between the bar temples and the shed. There can be no worse temple for any kind of goods than a pair of dilapidated hooks connected by a miserable strap, 40 or 50 pounds of old castings, said strap running down over the end of the breast- beam with nothing better to keep it in its place than the groove it has worn. To have 4 or 6 hooks in the end of a strap, 2 to 3 inches wide next to the cloth, about three-eighths of an inch wide, from within 4 inches of the cloth to the weights, running over a pulley as near the lathe as possible, and at least two feet from the cloth ; weights which will answer to draw the cloth to its proper width, but occupying little space as possible, and treadles to lift and let them down gradually when setting, may all help to make this class of temples answer, but at best they are not perfection. An auto- matic temple is wanted, which will do all kinds of work, require little repair and be easily adjusted. The nearest approach to a perfect temple that has come to our notice is an English invention ; if we should speak of it here as we think, our remarks would read very much like an advertisement. There is this about it, however, it is somewhat complicated and troubles many weavers at first. A little perseverance is needed. Temple Marks. — When strap or bar temples are not regularly and frequently set, hold the goods too wide or not wide enough, draw too much in the direction toward the cloth beam, chafe or tear the goods ; or if the goods are slazy, temple marks are pretty cer- tain to occur. They show much more on some goods than on others, but ought not to exist. After picking out, a weaver sets up temples to take up the slack at the sides. A temple mark is an almost sure consequence. Automatic temples will mark the goods principally by chafing and slipping. The temple needs much attention, but when once right it is easily kept there if closely watched. Tenter Bars. — Notwithstanding all the many ingenious inven- tions on the drying machines in use, there are some points in which all are yet inferior to the tenter bar, when gotten up and fitted out SPITZLI'S MANUAL. I 59 with the best and latest improvements. The stretching is on no machine under such accurate control. Since the introduction of Lacy's tenter clothing the edges cannot come from any machine in better shape and condition than the bars having this almost in- destructible clothing, instead of the old-fashioned tenter hooks. The slow process of drying on bars may not be the cheapest as regards the cost of labor, but the effect on some goods is worth many times the cost of the extra labor. Texture. — Texture is a term used to designate the binding or interlacing of threads necessary to produce a fabric. Texture does not, therefore., mean the fabric, nor yet the yarns whereof it is made, but the construction whereby it is made with the yarn. The simplest texture requires four threads, two each way, one pair being at right angles to the other. By constructing a few of the simplest textures with pieces of tape, any one who must learn the nature of textures from the very foundation will be much benefited. Pro- ceed as follows : Take 4 pieces of tape, each 1 inch long, lay two parallel (side by side) upon the table ; call these the warp threads; the ends toward you we will suppose to be pointing toward the cloth beam ; these should be pasted to a pieces of paper. The other ends toward the warp beam ; these are better to be left loose. The left hand one, mark No. 1, the other No. 2. You are now ready to put in the first pick, which is easily done by slipping one of the remaining pieces of tape over the end of warp tape No. 1, and under No. 2, next to the paper. The second pick put in at the other end, but contrary to the manner of the first ; that is, under No. 1 and over No. 2. The result is a fabric of the simplest texture possible. But this is not only the simpelst texture, the fabric is about as limited in size as in texture. A fabric may con- tain more threads each way, in which case they must, of course, be longer. The increased number of threads are bound into a larger fabric, but the texture remains the same, being simply repeated. Let the student prove this and learn several points by the operation. Cut 12 pieces of tape, each 3 inches long, paste the ends of 6 upon a strip of paper 2 inches long by % inch wide, so that the 6 pieces of \ inch tape (side' by side) will have equal spaces between them. Upon two other papers paste the other 6 pieces, 3 on each, leaving about T \ inch space between the pieces of tape ; place the paper with 6 pieces next to yourself, the free ends pointing away from you, this will again represent the warp. At the right hand lay 3 of the filling threads, at the left the other 3. Number l6o SPITZLI'S MANUAL. . the warp threads, from the left, i, 2, 3, 4, 5, 6 ; the filling threads number alternately, the nearest left hand No. 1, the nearest right hand one No. 2, the next left hand one No. 3, and so on. Now enter No. 1 filling thread, over No. 1 warp thread, under 2, over 3, under 4, over 5, under 6, next to the paper. From the other side enter filling thread No. 2, next to No. 1, over warp thread No. 6, under 5, over 4, under 3, over 2, under 1. Filling thread No. 3 enter like the first next to No. 2, No. 4 like No. 2, No. 5 like No. 1 again, No. 6 like No. 2. This constitutes a fabric with three repeti- tions of the texture each way, technically speaking three " repeats" each way ; and it has been constructed just as the loom must do it in principle. The loom is more practical with its contrivances, having mechanism for lifting all thread simultaneously, another for passing a shuttle through the opening between the raised threads and those left down, said shuttle carrying with it a coil, or bobbin of filling in such a way as to leave a thread behind it, in the said open- ing, properly called shed. To represent the shuttle coming from each side, alternately, the tapes have been entered from both sides, to keep the tapes in their proper order it has been necessary to fasten the ends ; in the loom this is done by the heddles and reed. The heddles lift and lower the warp threads, and the reed beside keeping the yarn evenly spread next to the cloth, is brought up against the cloth after each pick has been entered, which forces the filling threads together. The construction of "the simplest texture being understood, the application of the principle to produce large fabrics by many repetitions of the pattern or single textures being comprehended, the student is prepared to proceed to other tex- tures. The same tapes will answer for many; longer ones, and more of them may be prepared in a similar manner, or the frames made for the purpose purchased with instructions or made from the fol- lowing description : A frame something like the frame of a slate in appearance has tapes stretched one way, as close togewier as con- venient, in number according to the size of frame — 12 inches will admit about 40. The filling tapes are fastened by one end at the sides. These frames are very convenient, and can be made or pur- chased without much trouble. The next step is to represent tex- tures on paper ; this is quite simple after a little practice with the tape. Take quadrilled design paper ; the rows of squares up and down, as the paper lays before the student, represent warp threads. The lines of squares, horizontally, represent filling threads. Since fabrics are made up of repetitions of the texture, and the loom duplicates the application of it to the threads, it is necessary to rep- SPITZLI'S MANUAL. 161 resent a texture only once on the paper, such representation forms the part of a complete design designated by the term chain draft, because by it, the pattern chain is built, whether the chain be of paper, wood or iron. In writing a draft, its beginning and ending must be the same as if another repetition of the draft were to be placed on either side of it. This is necessary because such is really the case in the goods, when the directions of a perfect draft are carried out by the loom. Below are representations of some of the elementary textures; any one of them is a complete chain draft : No. i. 2*D I 2 No. 2. 4*0 2D* I 2 No. 3. 9 f I. I 8*D 7*D 6*D 5D* 4D* 3D* 2D* id* 1 2 No. 4. 3*DD 2D*D 1 2 3 No. 5. 3D** 2*D* 123 No. 6. 6*DD 5D kD 4DQ* 3 *na 2DD* iD*D 123 No. 7. 6D** 4**a 2**D !*□* 1 2 3 No. 8. 5D** 4**D 3DD* 2^*D 1 2 3 No. 9. 6 **□ 5 DD* 4 **D 3 D** 2 -*DD 1 D** 1 2 3 11 No. 10. 4*DDD 3D*DD 2DD*D 1234 No. 11. 4D*** 3*n** 2**n* 1234 No. 12. 4***D 3D*** 2**0* 1234 No. 13. 4**nn 3**DD 2DD** 1234 No. 14. 4**DD 3D**D 2QD** 1234 No. 15. 4*a*n 3**DD 2D*D* 1234 No. 16. DO** 1234 No. 17. 5*DDDD 4D*DnD 3DD*nn 12345 No. 18. SD**** 4*D*** 3**D** 2***D* J 2 3 4 5 No. 19. 5**nnn 4D**nn snn**n 2DDD** 12345 No. 20. 4*DDD* 3**an* 2***DD 12345 No. 21. 4**D** 3D**** 12345 No. 22. s*n*n*n 4*n*n*a 3D*d*d* 2D*d*d* 123456 No. 23. 6***ddd 5***DDD 4***DDD 3DDD*** 2DDD*** 123456 No. 24. 6**n*DD 5***nnn 4D**DD* 3DD*D** 2DDD*** 123456 No. 25. 6*DDD** 5**DDD* 4***DDD 3D***DD 2DD***n 123456 No. 26. 6*DD**D s**n*aa 4***DDD 3***DDD 2D**DD* 123456 1 62 SPITZLI'S MANUAL. " No. i represents the plain texture first illustrated by the experi- ments with tape. This texture is called " cotton weave," " sheet weaving," " plain cloth " and by many other appellations, the derivation of which is almost self-evident. From this base one may branch out into many variations. No. 2, for instance, is like No. 1, but two lines being alike, the respective picks in weaving will have the same shed opened for them, consequently the filling threads will be doubled in each shed. This is called weaving with 2 picks in a shed. It is done for various effects and purposes. No. 3 is an extension of the same idea to 5 picks in a shed, such a chain with the proper yarn would produce a fabric called " repp," or " cross cord." No. 4 is already an enlargement of the first texture repre- sented and cannot be made to look entirely plain because the change from thread to thread, of the one harness up, causes a diagonal effect. While such effects are small but distinct, they are termed twills. No. 4 is then a 3-harness twill. The filling shows much more than the warp on the face. Therefore, this is a filling-face twill. No. 5 is the same, but because two-thirds of the warp yarn passes over the filling it is called a warp-face 3-harness or 3-leaf twill. No. 6 is like No. 4 for 3 picks, the other 3 picks being really the same texture, but applied in a different order. This is a variation of the No. 4 texture which, with some yarns, makes a face that appears to be almost plain, therefore, it is sometimes called " plain 3-leaf cloth." The same difference is exhibited between No. 6 and No. 7 as between No. 4 and No. 5. One being a filling- face the other a warp-face. Already the student will have noted that to be a filling-face texture the warp threads must go down in the larger proportion and vice versa. Such observations give the cue to quick comprehension of special characteristics in more elaborate texture, and particularly in combinations of textures. No. 8 and No. 9 are the first steps at combination. These chain drafts combine the texture of No. 1 and No. 4 in No. 8 ; of No. 1 and No. 5 in No. 9. The student should now examine the texture of the individual warp threads or harnesses, also the filling threads or picks, and study out the combination principle without aid. No. 10 is similar to No. 4, but with one more harness and pick per pattern. Were the fifth harness in No. 17 like the first it would be the same 4-harness twill as is represented in No. 10. with one thread too many. This thread might be the one of another repetition of the texture, in which case it would be wrong to have it appear on the draft ; but it might for certain effects be desirable to have 5 threads in the pattern — the first and last to work alike when it SPITZLI'S MANUAL. I 63 would be proper to leave it on the draft, but not really necessary, because there is another way of producing the same result, namely : to have only 4 harnesses, when the fifth thread is reached in draw- ing the threads into the heddles, draw it into a heddle on the first harness, then the first one of the next pattern would have to be drawn on the first harness also, the second on the second, and so on until the fifth is reached again, which is to be placed on the first every time, as before. This slight digression will admit a little light on the cross draw principle, which is duly considered else- where. No. 11 and No. 12 are the same texture, but the order of the threads is changed. No. 13 is the same as No. 1, but doubled every way. No. 23 is the same, but has 3 threads working alike each way. This variety of textures are called "basket weaves," probably because the several threads working alike lay side by side and give the appearance of narrow strips that have been plaited. No. 14 is another 4-harness twill. It is a very common texture, often named from the class of goods made with it — " Kersey twill," "cassimere weave," "double treadle twill," etc. Nos. 15 and 16 are the same as No. 14, but the twill is broken by a different order of the threads working the same. Broken twills are much used for mottled effects. Nos. 24 and 26 are of this order. No. 21 is also sometimes called a broken twill, but in reality it is a double twill. It is commonly called the doeskin weave. It is needless to encumber space here with further illustrations ; most complete col- lections of textures are procurable. Besides studying such collec- tions, the student should give much time and attention to work out the principles here illustrated in larger effects, with more harnesses, without aid, and when such a task is completed compare notes with some one or with the same thing as given in some of the collections referred to. So far the textures considered have all been single. Combinations may be called compound fabrics, if a name must be produced. Double fabrics are such as have two textures, one above the other. Triple fabrics are the same, with three textures. In this class the textures may be separate, here and there tacked to- gether, or so incorporated in each as to be one solid mass or inter- changeable in their appearance in either by parts. In taking up double textures only the simplest kinds are illustrated here, elaborate designs of this kind must not be attempted until the principles and elements underlying them are fully comprehended. When this point is reached a large collection is of more use than a few examples, and more could not be given here. We begin again with texture No. 1 by doubling it. No. 27 represents this texture t 64 SPITZLI'S MANUAL. " separate ; that is : if this chain were used, the loom would simply make two pieces of cloth, one above the other. No. 28 shows one way of tacking the two together, this is done by raising the back warp (harness No. 2 and harness No. 4) for the face filling shed. The addition to the draft to produce this result is in a different charac- ter from the others (©) not because it must be different or of particu- lar shape or kind, but because it is very convenient always to mark this place usually called the " binder" and the threads so used to bind fabrics and textures together, called binding threads. In No. 29 the two textures are the same, but bound together differ- ently. In No. 28 the back warp threads were raised to let a face filling thread go under them ; in No. 29 the face warp threads are lo-wered when a back filling thread is going through ; thus it is incor- porated into the back fabric, besides doing regular service on the face fabric, consequently binding the two together. To be systema- tic some designers never call a face thread the binder, always the backing thread which helps to make the union. According to this in No. 28 the back warp threads would also be binding threads ; in No. 29 the back filling threads. The difference between No. 27 and No. 29 is designated by a cipher (o) in the space which should otherwise be a blank square, (o) and must be considered a "sinker." It is very common not to bind textures together so frequently, as will be seen further on. The principal feature of a double cloth draft is, that for the face pick only those harnesses are raised which rep- resent threads that must pass over face filling. All the others must be let down. This lets down all of the back warp and a part of the face warp. When the back pick is to go through all of the face warp and some of the back warp must be raised, leaving only such threads down as must pass under the respective back pick. Back- ing is sometimes attached not as a separate fabric, but as backing only, (for instructions see Backing.) No. 30 is a double cloth with the same twill on back and face as texture No. 14. No. 31 is the same as No. 30, but shows one of the many ways of attaching the two fabrics to each other. No. 32 is the same as No. 27, but by a different arrangement the binding is regular and one which is usually very safe because not so close as Nos. 28 or 29, and not showing through so badly. It also does away with the little dimple other bindings make in some fabrics. The back and face texture are not always alike, neither is the yarn always the same. No. 5^ illustrates a double texture of this kind, the face being like texture No. 25, a plain 6-harness twill, the back like No. 5, a plain 3-harness twill filling back. The warp face of the back fabric being under SPITZLI'S MANUAL. 165 the face fabric. The density of the threads also differs in this, there being two face threads to each back thread. In such fabrics it is customary to use fine yarns in the face fabric, coarser in the back fabric. No. 34 illustrates that the double cloth texture need not be confined to twills but can be applied to any texture. The fact that more harnesses being required for double than for single textures must be borne in mind. No. 34 is a basket face and a broken twill back. Note that the binding is done in both ways in this draft : No. 30. No. 27. 4***D 3DD»D liDDD 1234 No. 28. 4***D 3DD«© 2*D** itffiDD 1234 No. 29. 4**OD 3DD»n 20D** liDDD 1234 8*DODDD*D 4DD*D*DDD 3*»*D*D*» 2naaD*D*a 1 2 3 4 5 6 7 S No. 31. 7*a*»o»*a 6*n*anaaa 4Da*a*aaD 30D*0*D*» 2D«aD*a*a 12345678 No. 32. 8D*ana*aD 7Daa*DD** 4Ddd**dd* 3**D***D* 2D*naD*aa 12345678 No. 33. 9«*»»ODDDD 8dd««*»dod 7*******0* 5DODDD»»*» 4*n******* 3«ODDDD»*» i>(c;t;;tc>|cn**** 123456789 No. 34. i2«D»a«anDDnna n*n*****noa** io#a»D«©DDnDDD 9***D***Q***Q 8«®«DtDDaDDDD 7*****a***aoa s*aoa***a**** 4DDaDDD#a»a«© 3*a***D***a** 2DDDDaa»©»D»a i***aoa*****a 123456789 10 11 12 s*d*d**** 7QDDa***0 6*D*****D sDD***aaa 4*****D*D 3***DDDna 2^*;*:n*D** i*DDDDD** 12345678 Many of the more elaborate designs can be produced by a .com- bination of several textures. Notably ingrain carpet, two-ply and three-ply. In such goods the yarn, when not required in the face fabric, is bound into a texture on the back which at once adds firmness, warmth and durability. Other goods are made with a face and a back fabric, and any yarn or threads not needed in the face or back allowed to float between the two; they are there out of sight and the danger of being drawn or pulled in finishing or weav- ing. In woolen goods that must be fulled, it will not do to allow these floats to be too long or many, as they roll together and make uneven thickness in shrinking. I 66 SPITZLI'S MANUAL. The characters used in the foregoing drafts are : * and © for raisers, □ and • for sinkers. Tickings. — A heavy cotton fabric, most commonly blue and white checks or stripes, and a warp twill texture. Ties. — This word has many erroneous applications. It is used by some in place of fabrics, the arrangement of harnesses, com- pound fabrics, etc. The proper use for the word is now generally acknowledged to be limited to the manner or peculiar ways of fas- tening several fabrics together into one, when this is done with a special arrangement of the threads for the purpose. The manner of tying the back and face together is illustrated by Texture Drafts Nos. 23 to 35. The manner of making double and triple cloth, and having the yarn interchange in the several fabrics, is also exemplified. Thread-Bare. — A name for the finish on goods which leaves no nap. Throstle Frame. — For cotton the frame in its transverse section is similar to the throstle frame used for combed wools. A cylinder, bearing the roving, is at the summit of the frame. The roving in its descent becomes engaged between two drawing rollers at a proper distance apart, and surmounted with top rollers. The drawn out roving passes through a fly terminated by a tube, and is wound off and twisted by the rotation of a spindle. Each spindle receives its motion from a drum placed underneath the frame. Tools. — Tools are a great necessity of the present day. Manu- facturers are sometimes compelled to be stingy in supplying them, because the workmen they employ are either dishonest, careless or incapable. It would seem that this would be a good criterion by which to judge employees, and we contend that it is; that the best and cheapest workmen are those who can be entrusted with good tools. But workmen must become accustomed to tools to make the best use of them ; if, then, they were to find tools different when- ever they changed places their beginning would not be so satisfac- tory. Some tools they should own and take with them, and manu- facturers should encourage it by replacing tools lost or damaged in their service, without a fault on the part of the owner. From the designer down to the most common laborer, the best results are at- tained at the least cost of material, time and exertion only when the best attainable tools are employed by workmen who have sufficient intelligence to make good use of them. The following quotation SPITZLI'S MANUAL. 1 67 from the Boston Journal of Commerce agrees with these remarks and cites the same facts in yet another light : "There is an old saying to the effect that 'it takes a good work- man to make a good job with poor tools.' So it does, and there have been many triumphs, recorded and unrecorded, of brain and skill over seemingly insurmountable obstacles. It is a satisfaction to compass a result with apparently inadequate means, and the mechanic who does it is justly proud of his success. But working with poor tools is never certain to produce good results, however great the skill and inventive the brain. Misses are made as well as hits- and even the most self-assured workman feels safer with good and applicable tools. No workman can afford to risk his reputation and success with poor tools ; there is so much risk of a failure, and such anxiety for the result, that even if success is attained it has been at the expense of time, thought, muscle and trouble that robs it of half its gratification. The time has gone by when the workman was expected to 'make something out of nothing,' when one imple- ment or appliance was made to do duty for another, and ' make- shifts,' their origination, use, and application to the job in hand were part of the kit of the workman. Even in hand tools the im- provement is obvious to the slightest observation. In every depart- ment of industry these improvements have made their mark. They have saved time and labor and produce more satisfactory results. It is a wise economy to reject imperfect tools, and, as the patent- medicine men advertise, ' use the best. Whenever an improved implement is put into the market — one that will do the work better or quicker, it is economy to buy it, even if the old one is intact and serviceable." Travelers — On spinning and twisting frames, short pieces of flat steel wire, bent to make almost a complete circle, but the ends do not quite meet. They are sprung upon the ring on which they travel around the bobbins ; the threads to be spun or twisted passing through them on their way to the bobbins, and the tension upon the threads being largely governed by the weight or size of the travelers. Treatment of Wool Before Carding. — Wool should be open and free to scour well ; it is impossible to do justice to wool when submitted to scouring in the condition the sorters leave it in. Hot or strong scouring liquors are a decided injury to wool, but when too weak or too cold, wool is not got clean quick enough, and is consequently either scoured improperly or felted. Much hand- 1 68 SPITZLI'S MANUAL. " ling while in any liquor felts wool. Sal Soda felts wool more than soda ash, soap more than sal soda, yet sal soda and soap must be used under certain circumstances. Many men cannot get wool through the squeezing rolls of a washing machine from a perfectly clear water. The best temperature for scouring wool either by hand or machine is from no° to 130 F. The chemicals used, the temperature of liquor and time of saturation should always be governed by the kind of wool in hand, and no attempt with a large lot should be made until a small sample has been got clean in a pail. By this method one soon learns to judge accurately by small experiments, a great saving. Tag locks and cotted wool should ba subjected to a sweating. Tweeds. — Twilled woolen fabrics, at one time only those cassi- meres with regular four-leaf twill, but now applied to almost any twilled goods resembling the original tweeds. English and Scotch tweeds differ in stock and character. The English goods of this class are usually finer than the Scotch. The finer grades are made of Aus- tralian, New Zealand, Cape, Buenos Ayres, Port Natal, German and Saxony wools. The coarser kinds or cheviots are made of Scotch, Slavonian, Chilian, Transylvanian and Colonial crossbred wools. Inferior wools from other countries are also used for this latter class. The wools of this country which give the best result in cheviots come from Maine. Canada wool does well also. It is necessary to spin this coarse stock twice 10 get it fine enough for many styles. Yarn dyed cheviots when the colors are fast enough to full a little, resemble the foreign goods much more than goods made of raw yarn. Crabbing improves the firmness of many pieces which would otherwise seem slazy. As a reliable work on Scotch tweeds that written by Robert Johnson may be cheerfully recommended. (The name is " Scotch Tweed Designers' Hand-Book.") Twills. — Twills are fine diagonals of the plainest kind. Used largely in many woolen fabrics, and frequently employed as the ground texture of larger designs. In plain woolen goods the finer twills are used for light weight goods single, for heavy goods by adding a backing. In all materials the proportion, twist and size of yarn are important factors in the production of certain appear- ances of twills. If the warp and filling are the same size and twist, and the threads are equal in number, the filling will usually pre- dominate, because it is almost impossible to weave the warp yarn as slack as the filling with the best tension devices. The warp yarn is generally twisted harder than the filling ; therefore, if of the same SPITZLI'S MANUAL. 1 69 weight, and being woven tighter as well, the warp twill would sink in still more. To reverse this, the warp yarn may be made a little coarser than the filling, or the number of threads made greater. By making the direction of the twist conform to the direction of the twill, further effects are attained ; the above statements are all made upon the supposition of like twist in both warp and filling, say right hand. If such yarn be woven into a twill running to the right, the twill will run with the twist of the warp and against the twist of the filling, consequently the filling twill will stand out more ; if the twill be turned to the left, the warp twill will come up and the fill- ing twill sink down. The warp being the hardest yarn, the goods in this case will feel softer when the filling predominates, the qualities and size of the yarn being the same. By reversing the twist of the filling and making it more prominent in that way the goods are made still softer, provided the stock in the filling is as fine or finer than the warp. For many goods, therefore, it is well to have the warp against, and the filling twist with the twill, for others the con- trary may be better, and when the warp and filling are of the same twist, intermediate effects are produced. Twist. — The amount and direction of twist, in yarn, plays an important part in fabrics ; in the preparation of a design, in dis- secting, and in the general management of a factory it should never be lost sight of or overlooked. The word twist is sometimes used instead of double and twisted yarn, manifold yarns, etc. In single or manifold yarn the evenness of twist is also important, but when unevenness of twist appears on the same bobbin it is usually the effect of uneveness in the size of the yarn, where it has either been strained by too much tension or was never drawn even. The twist runs to the finest places first and most. Twitts. — Twitts in yarn are fine places that may be caused by irregular or excessive drawing. By overdrawing we mean drawing in some part of the process more than the stock will endure. Twitts may be discovered in yarn by taking a number of bobbins — say ten — laying them at one end of a sheet ot paper, the color of which is a strong contrast to that of the yarn ; draw the threads from the bobbins slowly over this sheet of paper, side by side, letting none cross others, and having them all about equal distances apart, not more than one inch at one end of the sheet, not less than one-six- teenth at the other. This is a very severe test for any yarn. I70 SPITZLI'S MANUAL. - u. Upland Cotton. — A species of sea island cotton produced in the inland counties of Virginia, the Carolinas, Georgia, Tennessee, Alabama, Louisiana and several other States. It is a light, weak and uneven staple. Of the various kinds of cotton, Baird gives some ten pages of most useful information. Unit of Power. — One-horse power is by some writers given as the unit of power. " One-horse power is equal to 75 kilogrammetres." (Leroux's work.) Haswell says: "Its estimate is the elevation of 33,000 pounds avordupois one foot in height in one minute, and is nominated as being the nominal, indicated or actual." Unsworth Needle Looms — The peculiarity of this loom con- sists of two sets of weft carriers and points in lieu of shuttles. The principle is employed on fringe looms. V. Velvet. — Velvet may be made in many ways ; the plush may be of silk and the body fabric linen or cotton. When the material is all cotton the goods are called velveteen. The fabric, as it comes from the loom, before the plush is cut is most commonly known by the name of a class of goods of this order : " Fustian." The cutting, dressing and finishing processes are clearly described by Dr. Ure in his " Dictionary of Arts and Manufactures," from which the following and many other paragraphs in this work are quoted : " After the fustian cloth is taken from the loom-beam, it is carried to the cutter, who rips up the surface threads of weft, and produces thereby a hairy-looking stuff. After being thus ripped up, it is taken to the brushing or teazeling machine, to make it shaggy ; after they are brushed in the machine the goods are singed by passing their cut surface over a cylinder of iron, laid in a horizontal direction, and kept red hot by a flue. They are now brushed again by the machine, and once more passed- over the singeing surface. The brushing and singeing are repeated a third, or even occasionally a fourth time, till the cord acquires a smooth polished appearance. The goods are next steeped, washed and bleached by immersion in solution of chloride of lime. They are then dyed by appropriate chemical means, after which they are padded (imbued by the padding machine of calico printers) with a solutive of glue, and passed over steam cylinders to stiffen them. Smooth fustians, when cropped or shorn before dyeing, are called SPITZLI'S MANUAL. I 71 moleskins ; but when shorn after being dyed, are called beaverteen '• they are both tweeled fabrics. Cantoon is a fustian with a fine cord visible upon the one side, and a satiny surface of yarns running at right angles to the cords upon the other side. The satiny side is sometimes smoothed by singeing. The stuff is strong, and has a very fine aspect. Velvet Finish. — This term means a finish which has a resem- blance to velvet. In woolens this finish is frequently required and consists of a short, thick nap standing up as straight as possible. This effect is produced by gigging almost equally both ways, and allowing no subsequent operation to lay down the nap. W. Warp. — The yarn which passes through the harnesses and reed. The character of this yarn should be altogether governed by the fabric for which it is to be used ; but the product of a loom largely depends upon the strength of the yarn, be the fabric what it may. If for any reason the yarn of a warp is not strong enough for the work it must endure to produce the right texture, there is often a way open to change the texture slightly to relieve it with less damage than that caused by a small product and imperfect goods. Much may be done to humor a warp by various changes in the loom. When the warp is being woven very tight the opening of the shed is an extra strain upon the threads ; if the shed is not at the right level this strain will be greatest upon one shed or the other. Sizing applied to warp yarn will make it work much better in many fabrics. This was at one time done altogether in the loom, but is now done by machinery while preparing the warps. Warping. — The collection of yarn into a warp is a process seem- ingly very simple, but one which has brought out many new de- velopments in machinery, and is still very imperfect in some par- ticulars. The silk and cotton manufacturers have advanced far beyond the woolen in this department. This may be accounted for by the fact that no subsequent process with them will hide the defects in warping, while in woolen goods the shrinkage and the nap have covered and must to-day cover many sins. The manu- facturers of worsted goods have of late turned their attention in this direction ; and well they may, since nearly all the requirements of cotton warps hold good in relation to worsted, and the finish is 1^2 SPITZLI'S MANUAL. such as can not be depended upon to conceal anything. Even tension in all parts of the warp, equal length of all the threads, and even dressing when applied, are the three great requisites of warp- ing. Other important points will intrude on every hand, but none assume the importance of these. In silk and cotton it is now the common practice to put the yarn upon separate beams, from the small bobbins or spools, then to take alternate threads from these beams, from four to twelve in number, for the warp. The machinery, especially that for applying the sizing or dressing, and for drying the same, is now very perfect. These machines, or modi- fications of them, are being introduced for worsted work, and are really a necessity. The manner of warping woolen warps is still very primitive in many mills, and the best machines in use are not what they should be, because manufacturers will not pay the price of better ones. A greater folly can hardly be found in the entire manufacturing interests than this. The warp being well pre- pared, good work and plenty of it is a natural consequence — the opposite side is too ridiculous to mention. The necessary remedy lies principally in better machinery, (manufacturers should do their utmost to stimulate development;) next in more pains and labor with what machinery is now in use. In warping for fancy goods the number of threads are fixed by two limits — the pattern and the weight, both of which must sometimes be modified to bring them within present facilities for warping. Whether the warp is made from section beams or in sections upon a reel, the first calculation necessary is to find the number of threads in each section, and if possible make them conform to the threads in a pattern. That is, the threads of a section should be a multiple of the threads in a pattern. Making several different sized sections, or running one straight, the next reversed, (with a twist,) are almost sure methods of making section stripes ; the matter of damage is only doubtful when there is a question whether the kind of goods happen to show them or not. Having found the threads of the sections in con- formity to above instructions, the number of patterns per section will necessarily be known ; the number of threads of each kind of yarn per section is now obtained by multiplying the number of each kind of threads in a pattern by the number of patterns per section ; the total number by multiplying this product by the number of sections, and the total amount of each kind of yarn in yards by multiplying the last product by the length of the warp in yards. To ascertain the weight from the yards, see Yarn Table and Rules. For dressing or sizing, see Sizing. SPITZLI'S MANUAL. *73 Waste. — Too much attention cannot be paid to the matter of waste in a factory. Not only waste of material, yarn and cloth, but time and supplies. The manner of assorting, preserving and pack- ing waste is of importance. To keep the waste clean it must be kept off the floors as much as possible, what falls to the floor should be picked up, not swept along with other sweepings. Waste Pickers. — The many machines under this name made to pick or ravel waste to recover as much staple fibers as possible from refuse yarn, need little comment. The Kitson & Parhurst pickers for the purpose are well known, and probably have the lead in the market. Weaving. — Such elaborate articles on this subject may be found in the opening chapters of nearly all books on Weaving and Design- ing that it is superfluous to add to or repeat what has been thus published at the present writing. Weft. — Filling. Weights. — The convenience of standard weights of all kinds, as well as many special weights, for test weighing and the like, is a sub- ject beyond comment. The surest way to get accurate weights is to have them made by responsible parties, who are provided with the exceedingly sensitive scales necessary to test weights. With care and patience very good weights may be made. Baird gives instructions (pp. 192) that the amateur in the manufacture of weights will do well to heed. Willowing. — This process is one that comes under the head of separating the staple from refuse matter. It is practised very gen- erally by the best woolen mills. The cotton gin serves the best purpose for cotton, but has more to do and under greater diffi- culties. In further cleansing stock, each kind of textile fiber must be treated differently in the early cleansing processes. That which interests the most men, because they are engaged in that branch, is wool washing and scouring, and perhaps there is no other staple so troublesome from the many variations required. Winding. — By winding we understand that a process similar to that of spooling is implied, but that the receptacle of yarn in this case is a bobbin, not a spool. Much that may be said of spooling applies here, especially the allusions to precaution ; good work in winding is more imperative, because a badly wound bobbin cannot be used without loss of time and material, particularly in the shut- t 74 SPITZLI'S MANUAL. tie, the most common destination of a bobbin of yarn. In winding bobbins great care should be taken to adjust the machinery to form the taper to suit the peculiarities of the yarn wound. For instance, slippery yarn should have a long taper, tender woolen yarn a short one, and in all cases should the guide which forms the taper work smoothly and regularly. The tension should be so applied that the yarn will draw a little harder when winding next to the wood than when at the large end of the taper; few machines will do this, but it is a point of great advantage. There should never be a dwell in the guide motion, or an irregular traverse, as the yarn will certainly come off with irregular tension if this is not attended to. The faults of and remedies for over-run, too full, large, hard or soft bobbins are obvious. In some parts all spools and bobbins are given this one name, but in this country the term bobbin is now almost universally applied only to a barrel with one head. Bobbins should be made of wood which wears smooth, whatever the first cost. Maple is very good. Steaming yarn on the bobbin is very destructive of the bobbin, however much it benefits the yarn. Set- ting the twist by heating in an oven is quite as bad for wood ; when either course is practiced many bobbins are split. Of the shape of bobbins little can be said save that the bobbin should be made to suit the yarn. Cone bobbins are those which have a cone next to the head, because the building motion upon the machines used for winding the yarn upon the bobbin requires it; the same require- ment usually extends to the shape of the cone. Ribs or depres- sions, or creases upon the barrel, prevent the yarn from sliding off in a body, but the rib adds considerable friction and consequently cannot be used on some kinds of work, the difference in the tension of the yarn when beginning to unwind a bobbin, and at the last being too great. Woad. — The plant {/sates Glastumn or Isastis Tinctoria) when made into fermented paste is known as woad. It is a native plant of England, its coloring properties having been used by the ancient Britons more than 2,000 years ago. It is also cultivated in Europe. Its use in the blue vat is very important and requires much skill and experience. The nature and application of this substance should be studied by all who should understand colors, their nature, peculiarities and relations. Wool. — Wool, strictly speaking is a cutaneous secretion taking place through the epidermic pores of the animal. These pores are all of the same diameter, and, at equal intervals upon the epidermis SPITZLI'S MANUAL. 175 of the same sheep. They vary according to species, and are nar- row, straight or tortuous, and, consequently, the wool fibers will be fine, smooth or undulating, according to the shape of the pores by which they are gauged. Wool, if kept in a well-ventilated place, undergoes very little change. Under the influence of heat, wool decomposes, giving carbonate of ammonia and much oil. Acids act but feebly upon it ; caustic alkalies and their solutions dissolve it entirely. Wool is classified and valued by the length of its staple, the diameter of its fiber, its suppleness, elasticity and strength. The fineness of wool is determined by the number of undulations in a given length of staple — a very wavy staple should double its length by stretching, and then return to its original dimensions. There are two principal sorts of wool, namely : short or carding wool and long or combing wool. These two sorts give rise to four very dis- tinct classes : First — Fleece wool for combing ; Second — Fleece wool for carding ; Third — Pulled wool (mortling) for combing ; Fourth — Fulled wool (mortling) for carding. Fleece wool is all that is shorn from the living animal ; and pulled wool (pelt wool, mortling), that pulled from the skin of the animal after death. The latter is less valuable than the former. These two sorts differ in their stoutness and softness. Both are generally white, though sometimes black or brown. The skins supplying the pulled wool are of two classes : First — The skins of animals killed on farms. Second — The skins of animals killed in slaughter houses. According to its degree of fineness pulled wool is sorted into fine, medium and common. This kind of wool, never having reached maturity, and, moreover, being weakened and impaired by the lime used in stripping the skin, is lighter and weaker than fleece wool. Woolens. —The term woolens is used by the trade, and includes as a class, all woolen goods for men's wear, flannels, etc., etc. Worsted. — The essential difference between worsted and woolen yarn is that the former is combed, the long fibers being all laid parallel, the short fibers separated and taken away, while in the latter the fibers, long and short, must go together, and they cannot be so thoroughly straightened out. The reduction of the sliver or tops, as it comes from the combs to yarns, is also different from the process of spinning woolen yarn. The stock must, of course, be suitable to the process, hence the wools that are long and strong I j6 SPITZLI'S MANUAL. - enough to produce good worsted yarns are graded into combing and delaine wools. Unless the drawing is done on machines that do not twist the slivers, and the spinning on a very long draught machine like the mule, the yarn will be hard and wiry, lacking elas- ticity. This is the disadvantage the English process in the manu- facture of worsted yarns has over the French. Having produced the right yarn, the production of the texture is similar to other goods, but far more trying to the weaver; because of its costliness, the necessity of avoiding the smallest imperfection becomes impera- tive, and on account of the peculiarity of the fabrics every imper- fection is easily seen. The process of finishing and dyeing worsted goods is far more difficult than any one unacquainted with the nature of the difficulties can imagine. The treatment of a few kinds of worsted fabrics from the loom to the case would be a capital subject for a large book. X. Xerga. — A Spanish name for a peculiar woolen blanket. Our common market term, " Serge," is derived from this name. Y. Yama-Mai, or Oak Tree Silkworm. — The Yama-mai is a species of silkworn common in Japan, which derives its sustenance from the leaves of oak trees. Yarn. — Any spun thread may be called yarn, but the term in its strictest sense implies spun wool. Uneven Yam. — The causes of uneven yarn are numerous and varied, the consequences invariably imperfect goods, almost always a reduction of product, and much waste. There are a variety of terms used to designate the kind of unevenness. What is under- stood by uneven yarn, is that caused by uneven stock or roving, tight or loose bands, worn drawing rolls, etc., etc. Uneven twist is often mistaken for uneven yarn, but by careful weighing one may ascertain which it is. The uneven twist when not caused by irregular size or tension of spindle bands is usually the effect of irregular tension between the roving spool and the yarn bobbin. To watch every set of bobbins as they are taken off is an important duty that some one who is competent should be entrusted with. SPITZLI'S MANUAL. I 77 Twitty yarn may be caused by poor carding and combing, improper adjustment of drawing rolls, uneven speed, slipping belts, etc., etc. If the stock in the roving is examined frequently there should be no difficulty in deciding whether the trouble is in the spinning or before. The spinner cannot make good yarn with poor roving or machinery which is not adapted to the work. Yarn Numbers, or Counts. — The numbers of woolen yarn most commonly used in this country are those regulated by the run and grain systems. By the run system, No. 1, or i-run yarn, has 1600 yards per pound ; No. 2%, or 2^-run yarn, has 4000 yards per pound, etc., etc. This is very convenient, because so easily estimated per ounce, each number representing the number of times 100 yards are needed to weigh an ounce. The grain system of numbering woolen yarn is quite different, the most common measure or basis being 20 yards. Whatever 20 yards of any kind of yarn weighs in grains is the number given by this system. If 20 yards of any yarn weighs 13 grains, it is called 13 grain or No. 13 yarn ; if the same measure weighs 30 grains, then the yarn is designated as 30 grain or No. 30 yarn. Yarn Tables and Weights. — The avordupois pound and ounce are the correct weights for yarn calculations, but finer denomina- tions are necessary ; the pennyweight and grain of the Troy weights being convenient, they are sometimes employed in expressing smaller divisions of an avordupois ounce. 24 grains= 1 dwt. • 437i " or 2 &H " = 1 ounce. 7000 " " 291! " or 16 " = 1 pound. Table of Common Fractions of Ounces in Grains. 1 To~0 of I ounce = 4f grains 84 (( I (t = 8£ u Wo a I a = 12-3- a 1 TF a I a = 431 a 1 "J 11 I a = 87^ a JL 4 <( I a =109! it 1 3 a I a =i45l a 1 2 u I a =2l8f a 2 a a T^T 2 « 3 I = I9I ¥ 3 4 a I a = 328^ (< If yfff of an ounce or 4§ grains are put into one shell of a balance scale, the number of any woolen yarn in runs may be ascertained by the number of yards it takes to balance the 4! grains. 12 I 78 SPITZLI'S MANUAL. - For the grain system of numbering woolen yarns the weight of 20 yards of any yarn in grains being used as the number of the yarn, all that is required is a good scale and set of grain weights to ascer- tain the number. For cotton yarn use -£%% for an ounce or 8^ grains and for worsted yarns use -g 1 ^- of an ounce or 12^ grains to ascertain the number of the yarn. Worsted and cotton numbers for yarns are derived from the number of hanks required per pound, but the size of reel used differs, therefore, the number of hanks per pound must be different. The cotton reel is taken at 54 inches in circumference, the worsted reel at 36 inches or 1 yard for a basis. Cotton Table. 54 inches=i thread=i^ yards. 80 threads=i lea or knot=i2o yards. 7 leas or knots=i hank=84o yards. Worsted Table. 36 inches==i thread=i yards. 80 threads=i lea or knot=8o yards. 7 leas or knots=i hank=56o yards. Some woolen mills number their yarns by cuts. The number given indicates the cuts per pound : Two "hundred and forty yards per cut. Eight cuts per head. Six heads per spindle. Street's tables for grading yarns are highly recommended. F. T. Ashton of Pittsfield, Mass., publishes a Spinner's Guide, well thought of by many, for yarn calculations. The following tables are very convenient for those who must make comparative estimates of yarns numbered by the different systems. SPITZLI'S MANUAL. 179 YARN TABLE. Weight of Yards. 1,000 2,1)00 3,000 4,000 5,000 6,000 7,000 8,000 9,000 20 Y'ds Holes. 16.66 33.33 50.00 66.66 83.33 10.00 11.66 13.33 15.00 Grains. Runs. .625 1.25 1.875 2.50 3.125 3.75 4.375 5.00 5.625 87.50 1 10.00 20.00 30.00 40.00 50.00 60.00 70.00 80.00 90.00 70.00 H 8.00 16.00 24.00 32.00 40.00 48.00 56.00 64.00 72.00 58.33 n 6.66 13.33 20.00 26.66 33.33 40.00 46.66 53.33 60.00 50.00 if 5.71 11.42 17.20 22.91 28.62 34.33 40.11 45.82 51.53 43.75 2 5.00 10.00 15.00 20.00 25.00 30.00 35.00 40.00 45.00 38.88 Si 4.44 8.88 13.33 17.77 22.22 26.66 31.11 35.55 40.00 35.00 2* 4.00 8.00 12.00 16.00 20.00 24.00 28.00 32.00 36.00 31.81 2f 3.63 7.27 10.90 14.54 18.17 21.81 25.44 29.08 32.72 29.16 3 3.33 6.67 10.00 13.33 16.67 20.00 23.33 26.67 30.00 25.00 3+ 2.86 5.71 8.57 11.42 14.28 17.14 20.00 22.84 25.71 21.87 4 2.50 5.00 7.50 10.00 12.50 15.00 17.50 20.00 22.50 19.43 44- 2.22 4.44 6.66 8.88 11.11 13.33 15.55 17.77 20.00 17.50 5 2.00 4.00 6.00 8.00 10.00 12.00 14.00 16.00 18.00 15.90 5i 1.81 3.63 5.45 7.27 9.08 10.90 12.71 14.54 16.35 14.57 6 1.66 3.33 5.00 6.66 8.33 10.00 11.66 13.33 15.00 13.45 6i 1.53 3.07 4.61 6.15 7.69 9.22 10.76 12.30 13.84 12.50 7 1.42 2.85 4.28 5.71 7.14 8.57 10.00 11.42 12.85 11.66 7i 1.33 2.66 4.00 5.33 6.66 8.00 9.33 10.66 12.00 10.93 8 1.25 2.50 3.75 5.00 6.25 7.50 8.75 10.00 11.25 10.28 8+ 1.17 2.35 3.52 4.70 5.88 6.05 8.23 9.40 10.58 9.71 9 1.11 2.22 3.33 4.44 5.55 6.66 7.77 8.88 10.00 8.75 10 1.00 2.00 3.00 4.00 5.00 6.00 7.00 8.00 9.00 7.95 11 .90 1.81 2.72 3.63 4.54 5.45 6.36 7.27 8.18 7.28 12 .83 1.66 2.50 3.33 4.16 5.00 5.83 6.66 7.50 Some years ago the author published the above yarn table. It has since been published by several other parties, which is suffi- cient evidence that the table is worth the space it occupies here. It is not convenient to any one who is not in the habit of using decimals in calculations of this kind. But to any one who has become thoroughly conversant with the convenience of the decimal point, it will be of great service in estimating stock required, yarns, spooler measures, etc. It is applicable to both the run and grain systems of numbering, and by using other tables of this work for comparison of numbers it will answer tolerably for worsted also. The original explanation of the table is also given : " The yarn table herewith is intended to cover several points. First, to find the weight in ounces of any number of threads, one yard in length, or, in other words, any number of yards of yarn. Second, to find the measure in runs ; and, thirdly, in holes, of any number of yards. The size of the thread being designated both in grains and runs, in the two first columns. The yards in the first line, holes in the second, runs third, and ounces in all subsequent. The yards are given in thousands, for convenience sake ; for a less l8o SPITZLI'S MANUAL. number it is only necessary to divide by ten, one hundred, or one thousand, as the case may be, by removing the decimal point to the left one, two or three spaces. The table is based as follows: 100 yards of one-run yard weigh one ounce ; 1,600 yards or one run in length weighing one pound ; 60 yards one hole." Z. Zig-Zag. — In some parts, particularly in England, herring bone textures are called by this name. The texture effects which the writer classes as zig-zags are those in which the twills reverse in a much more irregular order. One sometimes meets muslins and gauze of this class, reminding one of chain lightning. SPITZLI'S MANUAL. l8l INDEX To the Subject Matter of the Manual which is not Alphabetically Arranged. Note. — The work contains 162 pages of names and terms with definitions and derivations, also elementary instructions on many important subjects involved, all arranged in alphabetical order. Page. Alpaca Wool 98 Ananas Hemp 97 Animal Fibers 98 Boiler Ash-pits, Furnaces and Grates 3S Boiler Bridge-wall 39 Cam Looms 122 Camel Hair 98 Card Grinding. . 107 Chain Drafts 86 Chain Drafts for Backing 33 Chain Drafts for Double Cloth ... 165 Chain Drafts for Repellants 145 Chain Looms 122 Chinese Grass 97 Close Shed Looms 122 Cocoa Fibers 97 Computations of Fuel, Steam, &c 40 Contrast of Colors 57 Dissecting Instruments 81 Drafts Illustrating Cross Drawing 64 Drafts Illustrating Simple Textures. 161 Drawing-in Drafts 86 Draw Loom 122 Dye-house Reels 144 Emery Rollers 94 Estimate of Heddles 148 Evaporation of Water in Boilers 46 Filling Drafts 87 Fixed Alkalies 21 Flax 97 General Consideration of Colors 57 Glass Threads 99 Gold and Silver Threads 99 1 82 SPITZLI'S MANUAL. " Hair Line Drafts in Harmony of Color 58 Heating Feed Water for Boilers 42 Imperfect Edges 93 Introduction 9 Jute 97 Manila Hemp 18 Mineral Fibers . 98 Nealing 24 Nettle 97 Open Shed Looms 122 Pelt Wool 137 Picking Out 75 Positive Shuttle Motion Looms 122 Qualities of Colors 5S Ramm6e 97 Reducing or Deducing Drafts 160 Reed Calculations 147 Reed Tables . . . 141 Roller Looms 122 Rough Edges 93 Ribbon Looms 122 Rule for Shrinkage in Fulling 103 Shear Grinding 109 Spooler Drafts 86 Suggestions to Beginners 15 Tables Showing Product of Looms 142-143 Table of Oils — Comparative Weights 130 Tape and Tappet Looms ... 122 Teachings of Experience Relative to Colors 59 Tenter Clothing 159 The Manufacture of Textile Fabrics 11 The Needle-bar Mechanism 69 The Preparation of the Sample for Dissecting 78 Uneven Yarn 176 Vegetable Fibers 97 Volatile Alkali 21 Warpers' Drafts 86 Water Surface of Boilers 4° Yarn Reels T 44 NOTICE. The prices in this Catalogue are adhered to as nearly as possible, but owing to frequent fluctuations in the value of many articles, alterations may be necessary from time to to time. In ordering, give the number with price of the article. Terms Cash, at the prices stated. Discounts cannot be given excepting on large orders, and to Dealers, Colleges and Schools. A large order means many articles not always a large sum. When the party ordering goods is unknown to us, the money should accompany the order, either by bank draft or postal money order. Money should never be sent through the /nails. If money or checks are sent by mail the letters should be registered. Where, however, this is not done goods will be sent C. O. D., provided a re- mittance accompanies the order to insure the prompt taking up of the package on receipt. The express company's charges for collecting and returning money on C. O. D. bills must be paid by the party ordering the goods. Small articles may be sent by mail in open packages at one cent per ounce. Pointed tools and glassware have to pay full letter rates, six cents per ounce. Liquids cannot be sent by mail. Articles of Glass, such as Spectacles, Eye-glasses and Microscope Slides, can now be sent by mail at Merchandise Rates, but only in metallic boxes, as ap- proved by the department. These will be furnished at cost, and are very cheap. Postage must be prepaid, and the necessary amount must be included in the re- mittance accompanying the order. All packing boxes will be charged for at cost prices, and all goods will be packed with the utmost care ; but no responsibility will be assumed by us for breakage or other damage, after a package leaves our premises, except upon special contract. Such articles as are needed by a considerable number of our customers we shall endeavor to keep in store. Orders which require alterations or additions, and those for which the goods must be manufactured, we are prepared to fill with the utmost promptness, avoiding the vexatious delays formerly so common. A. & A. F. SITTZLI. West Troy, April i, 1881. PREFACE. The necessity of instruments thoroughly adapted to the requirements of those who are, or hope to be, entrusted with the responsibility of regulating the cost, value, character and attractions of textile fabrics, has been exceedingly great. As every advancing step of any art or science entails new and more exacting duties upon those who endeavor to keep apace, the necessity must become more and more imperative. The delay in meeting this demand has resulted in the use of many crude, inconvenient and unsatisfactory implements in great and needless variety ; also a diversity of opinions and prejudices which of course will follow some to their graves. With an available supply of the needful, open to all, the more progressive will no doubt desire to be properly equipped. In a very short period the un- couth and imperfect instruments must give place to the neat and complete, in re- sponse to the demands of science and employers. Indeed to-day the successful applicant who brings to his new position a really complete outfit, and can show by their condition, manner of using and keeping them, that he is a workman of the higher order, at once commands respect and confidence not easily dissipated. In publishing this catalogue we do not aim to advertise a confusing profusion ; on the contrary our selections of instruments, etc., have been conducted from a practical standpoint, although covering an enormous field of inquiry. At present we desire to furnish only the simplest and best articles applicable to the many va- rieties of work, avoiding all that is needless or objectionable. All these the cata- logue enumerates in such a form that those who know their requirements may make a satisfactory selection, and that beginners and others who can not have such knowledge, may be easily and wisely aided and advised. The explanations of the instruments herein contained suffice to afford the purchaser a proper guarantee ; more explicit instructions will accompany the instruments or be furnished on ap- plication. Later improvements, accessories and novelties will be published either in supplementary pages or in new editions. Any specialties not enumerated in our catalogues or so published, will be procured or manufactured by us and supplied with the greatest possible dispatch at prices to defy competition. Inquiries are therefore always in order. We hope to gain much from new in- ventions which must follow the introduction of first-class instruments to so many who have never had the advantages of them, and we shall endeavor to render every aid and encouragement to inventors of improvements which we deem a decided advantage to any number of our customers, to the uttermost extent permissible by a trade distinctly in specialties which are required by such a limited number. To select suitable outfits with fixed prices, for the many kinds of work to be pro- vided for, would entail a loss to our customers or ourselves and prove unsatisfactory ; yet when a purchaser orders a large number of smaller articles upon which the mar- gin is greater in proportion to the price than of larger ones, we wish to make an ad- equate allowance similar to that made by those who are enabled to select sets or outfits suitable to their customers' wants. Our outfit reduction is certainly liberal and intended to afford the liberty to order just what is needed. If too liberal we shall soon discover it, and correct the failing ; but only when absolutely obliged to, for we shall make strenuous effort to make as few changes as possible ; abo to serve our patrons in a just and liberal manner, hoping in these and every other particular to give perfect satisfaction. A. & A. F. SPITZLI'S INTRODUCTION. Designers who are fortunate enough to need no optical aid in dissecting a pat- tern should not pass us by or peruse these pages thinking they were prepared for others ; they will find many things enumerated which they constantly need. The best course by far even in regard to optical instruments is to provide them before the emergency compels it. By so doing the eyes are preserved in their full strength much longer, and a familiarity with instruments is attained before they become an absolute necessity. Dissecting the pattern is by no means dissecting in its entirety, which fact is our reason for asserting that no designer and no textile factory should be without a microscope and many of the accessories thereto. Of the drawing materials, stationery and books, sufficient remarks precede the re- spective lists ; we would in this place add only one more suggestion to amateurs. Tiie possession of a complete outfit should be a beginner's first ambition. In pro- curing it he should be governed by two fact^, viz.: expensive ornamentation is un- necessary, but the possession of implements which reflect credit upon the owner's taste and judgment are an advantage to every workman. ILLUSTRATED CATALOGUE. OUTFITS. Almost every mail brings inquiries about outfits. " What kind of outfits do you furnish ? " " How much does a good outfit cost? " " Do you take pay by installments ? " We answer : Our outfits consist of Instruments, Books and Stationery, in col- lections selected from our catalogue by the purchaser or ourselves. It is impossible to select beforehand outfits for the many branches in which our goods are required without injustice to our patrons and ourselves, therefore Designers, Superintendents, Overseers or Learners may select their outfits to suit their needs, or entrust the selection to us (in which case we need full particulars of the kind of work to be done with the instruments, &c, &c.) In either case if the selection will permit, we make the price for the whole 5 to 15 per cent, less than the sum of the separate cat- alogue prices. When we are entrusted with the selection we shall take great pains to send only such articles as are necessary, unless otherwise instructed, and in no case will we send goods the value of which exceeds the remittance received. As regards installments, we would now answer that we shall take orders from parties who do not wish to pay all at once, but with the understanding that our business and our profits are such that we can not send goods and collect afterwards. A retainer of 10 per cent, of the sum to be expended on an outfit must be sent with the order. This retainer will be kept until the last payment has been made, at which time we will deliver for the last payment, for the retainer and for the regular reduction (the same as that made to cash customers on outfits). Not less than $5.00 will be taken as a single payment, excepting the last, which is to be equal to the balance due. Not less than $2.00 will be accepted as a retainer, although the price of the outfit wanted be less than $20.00. To aid beginners in selecting outfits, we give below an enumeration of the princi- pal parts of a complete outfit, to be used as a guide in ordering ; we have numbered it, as well as the parts, but omitted Catalogue numbers, which should always be given in ordering. OUTFIT NO. 1 . Part I. A Compound Achromatic Microscope for the examination of fibers and microscopic particles. The Binocular Economic Micro- scope, No. 102, with the best assortment of accessories $ 85 00 II. A Single Dissecting Microscope, No. 152, with all the latest devices to make it The Dissecting Microscope for designers 25 00 III. A Fine Scale in a Glass Case to keep it free from dust and the consequent injuries to the appearance and accuracy 12 00 A Set of Weights, including Apothecaries, Avordupois, Troy, Gram and Grain Weights 8 00 IV. Two Dies for Cutting Samples to exact measure for test weighing 7 00 V. A Twist Counter for ascertaining the amount o( twist in any sample of yarn 10 00 VI. A Simple Collection of Chemical Apparatus, adequate for all necessary tests 1 3 50 8 A. & A. F. SPITZLI'S " VII. Two Linen Provers, one ixi inch and one I inch 5 00 VIII. A Set of Dissecting Needles, Scissors, Forceps, Brush, &c, &c. In elegant case 8 00 IX. A Simple, but Efficient Set of Draughting Tools. In case. 15 00 X. A First-class Lamp, with condensers and necessary accessories to make dissecting patterns at night practical without destroying the eyes 2000 XL A Complete Assortment of Pens, including all kinds used by designers in general ; several varieties of Common Steel Pens, Shading, Drawing, Lettering and Ruling Pens 10 00 XII. Six Colors of Indelible Drawing Inks 2 50 XIII. A Box of Crayons in 12 colors ! 2 50 XIV. An Assortment of Lead Pencils fur common use and for de- signing 3 00 XV. A Complete Assortment of Design Paper, 5 quires in 6 kinds, 2 50 XVI. A Cheap Scrap Book, to serve as a receptacle of samples picked up here and there, to be dissected and subsequently put in a better book 3 OO XVII. A First-class Pattern Book for samples of goods manufactured under personal supervision 6 OO XVIII. A First-class Pattern Book for samples of goods made by others, which have been dissected 6 00 XIX. A Design Book for use at mill 6 00 XX. A Design Book for designs gotten from dissected samples .... 6 00 XXL A Color Book in which to keep specimens of colors taken from samples or otherwise procured. Space for receipts beside each sample and a " mat " leaf over all 10 00 Few young men keep such a book, and yet in a few years one of inestimable value can be gotten together. XXII. Two Record Books, one for a record of general facts pertaining to manufacturing ; one strictly for patterns or the memorandums they call for (convenient reference marks to be used) 3 00 XXIII. A Manual for Designers 2 00 XXIV. Some other Standard Work on Weaving 10 00 Total $285 50 Reduction 35 50 Price of this Complete Outfit $250 00 It must not be understood that we claim this to be the only complete outfit, or that we confine anyone to it. It will, however, serve as a guide to some. For instance, instead of a Compound Microscope for $85.00 and a Single Microscope for $25x0, an instrument which will serve for both purposes can be furnished for $40.00 to $50.00, according to the accessories taken with it. Again some of these parts may already be supplied in part or entire, or may not be needed at all, in which case another savine can be effected. ILLUSTRATED CATALOGUE. OPTICAL INSTRUMENTS. We are prepared to furnish almost any kind of Optical Instruments, as our con- nections afford us the very best advantages, and we will do so to accommodate our customers at any time. But for the present we intend to confine our energy en- tirely to the development of instruments recmired by the textile interests, trusting to meet with such success that additional branches in the future will not detract from the benefits we hope to extend to our present class of patrons. For the same reason do we omit in this catalogue the microscopes of the highest order, except to mention here that we will furnish at makers' prices any instrument from the one represented upon the frontispiece of this work down to those which have been selected as being much lower in price and still sufficiently nice in detail to meet any ordinary factory requirements. Our Instruments are purchased from the most reliable manufacturers when not made by ourselves, and we feel that we are justi. fied in claiming that they are the best that can be procured for the prices herein published. Should the market values change materially before we can issue our next edition, the change will not be made in our prices without notice to the purchaser. "The International" Improved Large Best Microscope Stand, (See Frontispiece.) Price $325.00. With all the Latest Additions, Complete, $1,600.00. In these Instruments the Stands, the Object-Glasses, the Illuminating, and all accessory apparatus are carried to the highest possible perfection. Mode of Packing First-Class Microscopes and Apparatus. ILLUSTRATED CATALOGUE. I I First-Class Accessories, 12 A. & A. F. SPITZLI'S THE ECONOMIC MICROSCOPE. The Microscope is now such an absolute necessity for the Designer, to enable him satisfactorily to carry on his investigations, that it is more than ever incum- bent on the optician to construct a sound economic instrument, adapted to the special requirements of this large and increasing class. For ordinary investigations, many of the delicate adjuncts applied to the higher priced instruments are unnecessary, and tend rather to confuse than to assist the beginner. A firm Stand and well corrected Object-glasses are, however, indispensable ; and, with a view to meet this want, we now introduce to the special attention of de- signers the " Economic Microscope." The description following will fully explain both the construction and the mode of using this instrument, while the scale of prices at the conclusion will, we trust, convince all who peruse them that we are able to offer those who do not desire to spend a large sum on a microscope, an instrument thoroughly adapted to their necessities, at a very moderate outlay. A Compound Achromatic Microscope consists essentially of two parts — an Object- glass and an Eyepiece — so called because they are respectively near the object and the eye when the instrument is in use. The object-glass screws, and the eyepiece slides, into opposite ends of a tube termed the Body, and upon the union of the two the magnifying power depends. The Microscope Stand is an arrangement for carrying the body, and is combined with a Stage for holding or giving traverse to an object, and a Mirror or some other provision for illumination. The Stand of the Economic Microscope is made in two forms — the one with a sliding coarse adjustment for focussing the object, and the other where the quick movetnent is produced by a rack and pinion. On both stands the fine adjustment is given by means of a milled head at the top of the stem. The Object-glasses are attached to the stand with the Universal or Society Screw. Description of the Stand (No. 99) and Apparatus as Supplied for $40.00. The foundation of the stand (No. 99) is a heavy horse-shoe base, at the bend of which is a firm pillar, having at its top a hinge joint, which allows the body to be inclined at any angle, and is sufficiently firm to permit of its being placed hori- zontal for use with the Camera Lucida. At this price the instrument includes one Eyepiece and two Object-glasses, called the i-inch and ^-inch, from their magnifying power being nearly the same as single lenses of such focal lengths, a condensing lens for the illumination of opaque objects, a glass plate with ledge, for examination of fluids, and a pair of brass pliers. The whole packed in a neat Mahogany case, with lock and key. Its Linear Magnifying powers are nearly as under : Draw-tube closed. Draw-tube pulled out. i-inch 63 93 J-inch 200 290 The Body is supplied with a draw, or lengthening tube, which must be pulled out to give the full power to the object-glass. The Quick-focussing movement is produced by sliding the body up and down in the tube, and the slow motion is given by the tube sliding over the inner stem with a spring inside, and adjusted by the milled head. ILLUSTRATED CATALOGUE. 13 The Stage, upon which the object is placed, has two springs, the pins attached to which may be inserted in any of the four holes on the stage, and by their pres- sure (which can be varied by pushing them more or less down) they will hold the object under them or allow it to be moved about with the greatest accuracy. The Mirror, besides swinging in the rotating semicircle is attached to a bar, with a joint at each end allowing a lateral movement, so as to throw oblique light on the object ; and for this purpose the tube beneath the stage, carrying the Dia- phragm, is attached by bayonet catches, and can be instantly removed, leaving a clear and very thin stage, allowing the utmost obliquity of illumination. This tube also carries the Polariscope, etc., etc. The Diaphragm slides in the substage-fitting, and consists of a tube containing two caps, furnishing two sizes of openings immediately in contact with the under surface of the slide to be examined, and also completely cutting off all light from the mirror when opaque objects are to be viewed. DIRECTIONS FOR USE. To adjust the focus of the Object-glass — In No. 99, for the quick adjustment, slide the tube up or down in the fitting. If a slight spiral movement is given to the tube by the finger and thumb, the motion may be made very gradual. In No. 100 the same adjustment is made by turning the milled head backward or forward. In both, turning the milled head gives the slow or fine adjustment. The light (which for transparent objects is reflected from the mirror, and for opaque objects is condensed by means of the lens,) should, in general, be upon the left of the observer if the microscope body is inclined, but in front if the Instru- ment is used in a vertical position. The best is that from a white cloud on a bright day ; but a very satisfactory effect can be produced by means of a petroleum oil or gas lamp, provided it is placed not more than 10 or 12 inches from the Instrument. For the examination of minute strise, side light is necessary ; for this purpose the Mirror must be used obliquely, the diaphragm with its fitting removed, which will then allow the light to impinge on the object at a sufficiently oblique angle. With the 1-inch Object-glass the light is generally in excess, and has to be lessened by means of the diaghragm fitting under the stage ; this can be slid up and down, thereby increasing or decreasing the cone of admitted rays of light. To illuminate opaque objects the light is thrown upon them from above. A small condensing lens, fitting into the stage, is used for this purpose ; its focus for a lamp or candle, 4 inches from it, is about 3 inches ; for daylight 2 inches. A large object can be placed upon the stage, but small ones are generally either laid on a slip of glass or held in the forceps. When viewing opaque objects, the diaphragm should be placed in position and the solid cap attached, so as to exclude all light from below the stage. A glass plate, with a ledge and some pieces of thin glass, are applicable for many purposes, but are specially intended for objects in fluid. Thus a drop is placed upon the plate and covered by a piece of thin glass, or, the object being put upon the plate and the thin glass over it, the fluid is applied near one side and runs un- der by capillary attraction. H A. & A. F. SPITZLI'S - Glass of any kind requires occasional cleaning ; a piece of soft wash-leather is the best for the purpose. The fronts of the Object-glasses may be carefully wiped ; but if they require any- thing more, it must be done by the makers. When cleaning the Eye-pieces, which should be done frequently, the cells con- taining the glasses must be unscrewed, and replaced one at a time, so that they may not be mixed. Any dirt upon the Eye-pieces may be detected by turning them round whilst looking through the Instrument ; but if the Object-glasses are not clean, or are in- jured, it will for the most part only be seen by the object appearing misty. The whole or any part of the extra apparatus described in the following pages may be added to the instrument at any time, without its being sent back to the makers. ADDITIONAL APPARATUS. Although the Instrument, as already described, may be considered complete and probably sufficient for many observers, yet the following additions can be made, all of which, packed in a small tray, will fit into the case which contains the Micro- scope. When the light from the concave mirror proves insufficient for any object re- quiring an intense transmitted light, the Achromatic Condenser may be employed with advantage ; this slides, by its tube, into the fitting under the stage of the In- strument, in which it has to be moved up or down until the focus of its lenses falls upon the object, the light having been previously reflected in the proper direction by the mirror. The Illumination of Opaque Objects, already described, must be more or less one-sided ; and in most cases it is desirable that it should be so. An illumination on any or every side, however, is easily obtained, provided the object is not too large, by means of a Lieberkuhn. This is a silvered cup, which slides or screws upon the front of the object-glass ; and light thrown upwards by the mirror will be reflected by it down upon the object ; it will then be found that, by slightly vary- ing the inclination of the mirror, every necessary alteration in the direction of the illumination can be obtained. It is in most cases necessary, when using the Lieberkuhn, to slide a Dark Well under the stage to prevent any light entering the Object-glass direct from the , Mirror. Dark-Field Illumination is, to appearance, a means of seeing a transparent ob- ject as an opaque one. The principle, however, is that all the light shall be thrown under the object, but so obliquely that it can not euter the Object-glass unless in- terrupted by the object ; this is best accomplished by IVenham's Parabolic de- flector. In this Microscope, the Parabolic Reflector fits under the stage in the same fitting as the achromatic condenser, and the adjustment of its focus upon the object (which is when its apex almost touches it) is made by giving it a spiral motion in the fit- ting — that is, carefully pushing it up or down at the same time that it is turned round by the milled edge. As the rays of light must be parallel when they enter it, the Flat Mirror \s generally used ; daylight will then require only direct reflec- tion, but the rays from an artificial source will have to be made parallel by putting the Condenser between the light and the mirror, about if inches from the former ILLUSTRATED CATALOGUE. I 5 and 4^ inches from the latter. Nearly the whole surface of the mirror should be equally illuminated, which may be tested by temporarily placing upon it a card or piece of white paper. Polarized Lights a beautiful appliance by which many objects otherwise almost invisible are shown in every imaginable color, can here only be treated of by de- scribing the way in which it is applied to this Microscope by the following appa- ratus : A Nicol's prism as a polarizer fits, and can be turned round, in the fitting under the stage ; another prism is fitted to an adapter which screws above the Ob- ject-glass, and also revolves. When only alternate black and white images are given by the prisms alone, a film of selenite, fitted in a cap which slips over the Polarized prism, will produce colored ones. To draw an object, the Camera Lucida is used. It slides on in the place of the cap of either Eyepiece, with its flat side uppermos,. The body of the Micro- scope must be in a horizontal position, and the whole instrument has to be raised until the edge of the prism is exactly 10 inches from a piece of paper placed upon the table. The light must be so regulated that no more than is really neces- sary is upon the object, whilst a full light should be thrown upon the paper. Only one eye is to be used ; and, if one-half of the pupil be directed over the edge of the prism, the object will appear upon the paper, and can be traced on it by a pencil, the point of which will also be seen. Should any blueness be visible in the field the prism is pushed too far on, and should be drawn back till the color dis- appears. Substituting in the place of the object a piece of glass ruled into iooths and ioooths of an inch, termed a Micrometer, its divisions can be marked on the same or another piece of paper, and, by comparing them with the sketch, the object can be most accurately measured. These divisions, also, if compared with a rule divided into inches and tenths, will give the magnifying power ; thus, supposing iooths of an inch when marked on the paper measured 1 inch and 3-ioths, the magnifying power would be 130. The Live-box hardly needs description ; the object is confined between the glass of the lower part and that of the cap ; the distance between them can be varied by sliding the latter more or less on. As the thin glass is only dropped into a slight recess in the top of the cap, and is held there by the heads of the two screws, it can be easily taken out for wiping or be replaced by another when broken. The Glass Trough for larger objects in water must be used with its thinner plate of glass in front. The modes of confining such objects and keeping them near the front surface must vary according to the occasion. For many it is a good plan to place a piece of glass diagonally in the trough, its lower edge being kept in its place by a strip at the bottom ; then, if the object introduced is heavier than water, it will sink till stopped by the sloping plate. Sometimes a very slight spring may be applied behind this plate to advantage, with a wedge in front to regulate the depth. Arrangements are made for all those parts which may require cleaning. Thus, the Parbolic Reflector unscrews from the table, the Nicol's Prisms will push out of their fittings, and the Camera-Lucida Prism can be taken out by turning aside the plate that covers it. 1 6 A. & A. F. SPITZLI'S . PRICES OF THE ECONOMIC MICROSCOPE AND APPARATUS. Xo. Price. 99. The Monocular Economic Microscope, with sliding coarse ad- justment, i-inch and J-inch Object-glasses, one Eye-piece, Concave Mirror, Condensing Lens, glass plate with ledge, brass pliers, and Diaphragm, in Mahogany Case $40 00 100. The Monocular Economic Microscope, with Rack-and-pinion coarse adjustment, with i-inch and J-inch Object-glasses, two Eye- pieces, Concave and Plane Mirrors, side Condensing Lens, Dia- phragm, Stage-Forceps, pliers, glass slip with ledge, in Mahogany Case 55 00 101. The Monocular Economic Microscope, with glass stage, and the same Object-glasses and accessories as are furnished with No. 100, in fine Upright Mahogany Case 65 00 102. The Binocular Economic Microscope, with i-inch and J-inch Object-glasses, two pairs of Eye-pieces, Concave and Plane Mirrors, side Condensing Lens for the illumination of opaque objects, mova- ble glass stage, stage-forceps, pliers and glass plate with ledge, in Mahogany Case 85 00 THE NEW BINOCULAR NATIONAL MICROSCOPE, 103. The New Binocular National Microscope, with Concentrically Rotating Glass Stage, and i-inch (No. 695) and £-inch (No. 698) Object-glasses, having the respective apertures of 19 and 75 de- grees, and magnifying from about 47 to 450 diameters ; 2 pairs of Eye-pieces, Stage-forceps, Condensing Lens on stand (No. 691), a glass plate with ledge for the examination of objects in fluid, and a pair of pliers ; the whole packed in an elegant French polished Ma- hogany Case, with good brass handle and lock, and a drawer for the accessories 1 10 00 DESCRIPTION. The Stand, which is 15 inches in height, is constructed entirely of brass, of the highest finish and best workmanship, having a broad, heavy tripod base. From the centre of this base rises a stout column, to the top of which is attached, by a firm joint, the Jackson model arm, carrying the compound body, by which the inclina- tion can be varied to any degree, from vertical to horizontal, the whole instrument being perfectly steady and free from tremor in any position. The very highest powers may be used with it, as the body, being supported by the arm throughout its entire length, can not have any unsteadiness or motion of its own. The quick Adjustment of Focus is effected by means of Rack and Pinion, with large Mdled Heads, which works so smoothly that there is no need to use the Fine Adjustment for any power lower than \ of an inch. The latter adjustment is by means of a delicate Micrometer screw and lever attachment, working with absolute freedom from all motion, and by which the very highest powers may be focused with the greatest exactness. ILLUSTRATED CATALOGUE. 1 J The Stage is of glass, with a complete rotation in the Optic Axis, upon the top of which is a sliding object-holder, very thin, and with a spring clip for holding the object in place during rotation. This clip is removable, in an instant, and the Stage forceps can be inserted in its place, thus allowing the latter to be moved about with the object-carrier. Beneath the Stage is a tube carrying all the sub-apparatus, as the Achromatic Condenser, Wenham's Parabola, Polarizing Apparatus, etc., etc. This is securely attached to the Stage by a bayonet catch, and can be instantly de- tached, leaving a very thin and unobstructed Stage for Oblique Illumination. The Shutter Diaphragm is of novel construction, with the various sized openings almost in contact with the underside of the object under examination, a great improve- ment upon the old revolving disk Diaphragm. A Double Mirror Concave and Plane is hung upon a swinging bar, and arranged with every possible motion for Direct and Oblique Illumination. No. Price. 134. The New National Monocular Microscope, with Concentrically Rotating Glass Stage, and r-inch (No. 695) and J-inch (No. 698) Object-glasses, having the respective apertures of 19 and 75 degrees, and magnifying from about 47 to 450 diameters ; 2 Eye-pieces, Stage- forceps, Condensing Lens on stand (No. 691), a glass plate with ledge and a pair of pliers ; the whole packed in an elegant French polished Mahogany Case, with good brass handle and lock, and a drawer for accessories $85 00 135. The New Binocular National Microscope, with i-inch (No. 695) Object-glass, 1 pair of Eye-pieces, Nos. I or 2, as desired, Stage- forceps, Condensing Lens on stand (No. 691), glass plate and pliers, in M ahogany Case 95 00 136. The New Monocular National Microscope, with 1 Eye-piece, Nos. 1 or 2, as desired, and the same Object-glass and fittings as with No. 135. In Mahogany Case 70 00 137. The New Binocular National Microscope Stand, with 1 pair of Eye-pieces, Concave and Plane Mirrors, Diaphragm, Stage- forceps, glass plate and pliers 75 00 138. The New Monocular National Microscope Stand, with 1 Eye- piece, Concave and Plane Minors, Diaphragm, Stage-forceps, glass plate and pliers 50 OO A. & A. F. SPITZLI'S THE NEW HISTOLOGICAL DISSECTING MICROSCOPE, No! 140. No. 140. No. Price. 140. The New Histological Dissecting Microscope, with outfit as described below $25 00 This instrument combines a Compound Microscope with a Single and Dissecting one in a very compact, practical and economical form. The stout immovable arm carrying the lens when used as a Single Microscope is so arranged that a compound body with Eye-piece and draw-tube may be attached to its upper surface, whilst beneath it is fitted with the Society Screw, whereby any objective may be used with it. The Rack-and-Pinion adjustment works so smoothly that a J-inch objective may be focused with the utmost exactness. The Mirror beneath the stage is so adjusted upon a swinging arm that it may be turned up over the stage for the illumination of an opaque object. A revolving diaphragm, with various sized openings, is attached to the under side of the stage. The outfit consists of a single lens of i-inch focus for dissecting and botanical work, and an achromatic objective of i-inch focus, the same as furnished with the Economic Microscopes, and one Eye-piece, giving a range of powers, with the draw-tube, of between 200 and 300 diameters, a pair of brass pliers, two dissecting needles in Ebony handles, and a glass plate with ledge. The whole packed in a neat Mahogany case with lock. ILLUSTRATED CATALOGUE. 19 No. Prick. 141. The New Histological Dissecting Microscope, with the same outfit as with 140 and the addition of the Economic 1-inch Objec- tive . $32 00 142. The New Histological Dissecting Microscope, same as with 140, with all the additional accessories necessary to make it the best and most complete Dissecting Microscope at present available to designers, at the same time meeting all the requirements of an " Examining " Microscrope . $40 00 To all who are unable to procure both single and compound Instruments, and still need both, this Instrument is especially recommended. NEW MODEL DISSECTING SINGLE MICROSCOPE. No. 150. One-half Actual Size. No. Price 150. New Model Dissecting Single Microscope, Stand all brass, with broad circular Base and large firm Stage; Jointed Arm to to carry the lenses, with rack-and-pinion adjustment of focus ; Concave Mirror and Side Condensing Lens, with complete adjust- ments ; two single lenses of 1+ and I -inch focus ; also, other im- portant accessories. The whole packed in a strong Mahogany Case with handle and lock $15 00 20 A. & A. F. SPITZLI'S No. Price. 151. New Model Dissecting Single Microscope, Stand only, with Lens ; no Case or Condenser $10 00 152. New Model Dissecting Single Microscope, with accessories and additions to make it a very complete instrument for dissecting or " picking out " patterns, as well as many other uses of the designing room and office 20 00 This instrument has been specially designed to meet a long-felt want for a thoroughly good dissecting Microscope at a very moderate cost. The Stand is very firm, with a roomy and convenient Stage of the exact height from table for convenient use ; the lenses are exceedingly good, and of the most useful powers and the whole will be found very satisfactory for most purposes. 165. The Favorite Dissecting Microscope. Plain brass base, which answers also for a convenient stage, sliding adjustment, I lens of 2- inch focus, another more powerful i-inch focus. In neat case 10 00 166. The Favorite Dissecting Microscope. Same as No. 165, but only one lens 6 00 167. The Amateur Dissecting Microscope. Similar to No. 165, with elegant black walnut base, and several special accessories required by the beginner 8 00 168. The Amateur Dissecting Microscope. Similar to No. 166, with black walnut base 5 00 169. The School Microscope 6 00 170. The School Dissecting Microscope. This instrument is the same as The School Microscope, No. 169, with the addition of two hand rests, which at once convert it into a most excellent and convenient Dissecting Microscope. They are attached to the stage by milled heads, and are instantly removed if desired. The whole, micro- scope, lenses and hand rests, can be packed in the case, which measures six by three inches, and two and a quarter inches deep. The lenses are of a most excellent quality, the stand firm and well finished, and it would seem impossible to improve on this really ex- cellent instrument, either in compactness, efficiency or cheapness. The accompaniments are the same as those with No. 169 8 00 ILLUSTRATED CATALOGUE. 21 THE SCHOOL DISSECTING MICROSCOPE, No. 170. No. Price. 171. Same as No. 170, with necessary accessories to adapt it for dissecting patterns $ 10 °° 172. The Excelsior Pocket Microscope, with three lenses 2 75 173. With two lenses 2 5° 174. With three lenses and hard rubber slides, with square openings J and *-inch 3 00 22 A. & A. F. SPITZLI'S THE UNIVERSAL HOUSEHOLD MICROSCOPE. No. 1 80. One-half Actual Size. No. Price. 1S0. The Universal Household Microscope. There are a number of Microscopes under this name in the market, and in adding ours to the list, we have endeavored to add to their efficiency and conveni- ence, whilst somewhat reducing the cost. The stand is ten inches in height, with hinged joint, allowing it to be inclined to any angle for convenience of observation. The base is of cast iron, the de- sign forming the monogram, R. & J. B., handsomely bronzed, the compound body of finely lacquered brass, with draw-tube for in- creasing the power. The Object-glass is of three powers, usable separately or combined, magnifying from about 20 to 100 diameters, or, in popular terms, from 400 to 10,000 times. The markings upon the scales of butterflies' wings, and most animalcules in pond-water, are very well shown by these glasses. A pair of brass forceps, two glass slips and one prepared object accompany it, the whole con- tained in a neat and strong walnut wood case $5 °° ILLUSTRATED CATALOGUE. 23 No. Price. 181. The Universal Household Microscope, the same as 180, with an Achromatic Object-glass of three powers, in place of the one fur- nished with 180, magnifying from 30 to 150 diameters, with excel- lent definition, entirely free from color $8 00 183. The Universal Household Microscope, with rack and pinion ad- justment of focus, a Condensing Lens, for the illumination of opaque objects, and an Achromatic Object-glass (Triplet), giving powers from about 30 to 250 diameters. The same fittings accompany it as are furnished with No. 660, and the whole is packed in a hand- some French polished Mahogany Case 12 00 Our object of inserting these household instruments into this catalogue is not to extend the business beyond our line, but we do it because we know that many men engaged in factories would long ago have supplied their households with this un- excelled means of instructive entertainment, had they known just where to apply for what was wanted, or felt that they could depend upon a fair bargain if they did attempt such a purchase. ACHROMATIC OBJECTIVES (FRENCH MANUFACTURE). These Object-glasses are all triple combinations, excepting the first, which is a doublet ; and are really well corrected lenses, giving a clear, well-lighted field with excellent definition. They all have the French Screiv the same as that of No. iS3 t but can be fitted with the Society Screw for an additional cost of 75 cents each. F. M. A. Achromatic Objective No. 0, i-inch, doublet $ 2 50 B. " " " 1, i " triplet 3 00 C. " " " 2, i " " 3 50 D. " " " 3. £ " " 4 00 E. " " " 4. i " " 5 00 F. " " " 5, -'- " " 7 °° x • -"10 ' G. " " " 6, Jy " " IO OO HAND MAGNIFIERS, ETC. Lens, about f-in. diam. 30 " 1 50 " . . " if " go f " 40 " H " 6o " with dia'm, " £ " 75 200. Oval-shape, Hard-rubber Case, 201. " " " " " 204. " " " " " 205. Long-shape, '" " 206. " " " " " 207. 20 8. •' " " " " 2 " " " " I " I OO 209. " " " " " 3 $ " l 5o 215. " ' 2 '• - £ " 65 216. " " " " " 2 " - - " fl " 9° 219. ' " " 3 " - " 4 " 90 220. " " 3 221. " " " " 2 " - - 1 and A " I ?6 '4 A. & A. F. SPITZLI'S No. Price. 225. Linen-prover, Brass frame with i or |-in Open Square $0 50 226. " '" Nickel-plated, " " " 75 227. " " " " " " Opening; Achromatic lens. 1 00 228. " " Brass frame, 1 in. Open Square 1 50 230. 230. 231. 232. 232. 233- 233- 234- 234- 235- 235- 236. 236. 237- 238. 239. 240. 24T. WATCHMAKERS' AND ENGRAVERS' GLASSES, etc. Watchmakers' Glass of -J, i-inch, i£-inches diameter, as desired with two lenses, of different powers " small lens, high power Engravers' " " 2 plano-convex lenses, if-inches " " 1 double " lens, if-inches " " 2 piano " lenses, if-inches " " I double " lens, i-f-inches " " 2 piano " lenses, if-inches " " I double " lens, i-J-inches " " 2 piano " lenses, 2-J-inch.es " " 1 double " lens, 2^-inches " Seed Microscope, with glass cage for living insects, small size " " " " " " medium size . . . " " " " " " large size " " " forceps for living insects, folds in pocket-case, Three-legged Microscope, Brass frame, 2 plano-convex lenses, adjust- ment for focus Three-legged Microscope, Rubber frame, 2 plano-convex lenses " Steel frame, 2 plano-convex lenses 75 75 I 50 75 2 00 I 00 2 50 I 25 3 00 1 50 75 1 00 1 50 2 00 75 1 00 1 25 CODDINGTON LENSES. 242 243 244 245 240 247 248 < loddington lens, Brass frame, small size " medium size " " " large size " German-silver frame, with cover " Silver-plated " " very fine article. " and engraved, " " " Gilt pi 00 1 50 2 00 2 50 4 00 5 <>o 6 00 ILLUSTRATED CATALOGUE. 25 No. 231. No. 242. No. 230. 26 A. & A. F. SPITZLI'S No. 230.* No. 239. No. 246. No. 236. ILLUSTRATED CATALOGUE. CODDINGTON LENSES, ETC. 27 Nos. 355-358. No. 343. No. Price. 343. Combination of Three Lenses, mounted in Tortoise-shell, on Brass Stand, with Adjusting Arms and Sliding Forceps for holding an object $10 OO 344. Combination of Three Lenses, in Tortoise-shell, on Brass Stand, with Adjusting Arm 7 00 346. Combination of Three Lenses, mounted in Tortoise-shell, for pocket, 5 00 347. Coddington Lens, f-inch focus, " " Silver 10 00 348. " f-inch " " " Aluminium Bronze .... 10 00 349. " f-inch " " " German Silver 8 00 350. " |-inch " " " Gold 20 00 351. " " 4-inch " " " Silver .... 7 50 352. " ^-inch " " " Aluminium Bronze 7 50 353. " 4-' ncn " " " German Silver 6 00 ACHROMATIC TRIPLETS, 355. Beck's Achromatic Triplet, i-inch focus, in Silver Case $12 00 356. " " " f-inch " " " IOOO 357. " " " i-inch " " " 1000 358. " " " i-inch " " " 1200 28 A. & A. F. SPITZLI'S DEMONSTRATION LENSES. 406. Demonstration Lenses. A set of six, if inches diameter, showing the forms of the various kinds of lenses, viz.: DcJuble Convex, Double Concave, Piano-Convex, Piano-Concave, Meniscus Convex and Meniscus Concave. Per set $2 50 COSMORAMA LENSES. 409. Double or Piano-Convex Lens, 8 inches diameter and either 30, 36, 48 or 72 inches focus, each 4 00 410. Double or Piano-Convex Lens, 7 inches diameter, same foci as 409, each 3 00 411. Double or Piano-Convex Lens, 6 inches diameter, of either 24, 30, 36, 48 or 72 inches focus, each 2 50 412. Double or Piano-Convex Lens, 5 inches diameter, of either 18, 20, 24, 30, 36, 48 or 72 inches focus, each 1 75 413. Double or Piano-Convex Lens, 4 inches diameter, of either 12, 14, 16, 18, 20, 24, 30, 36, 48 or 72 inches focus, each r 25 414. Double or Piano-Convex Lens, 3 inches diameter, any focus 6 to 36 inches, each 75 415. Double or Piano-Convex Lens, 2 inches diameter, any focus 6 to 36 inches, each 60 416. Double or Piano-Convex Lens, i4; inches diameter, any focus 5 to 48 inches, each 50 MICROSCOPE AND TELESCOPE LENSES, 417. Double or Piano-Convex Lens, 1 inch diameter, 2 inches focus. 418. 419. 420. 421. 422. 423- 424- I i ' 3 ' 1^ I 75 75 75 75 75 75 75 75 ACHROMATIC OBJECT-GLASSES FOR SPY-GLASSES AND TELESCOPES, 425. Achromatic Object-glass, 1^ inches diameter, 18 to 30 inches focus, 2 OO 426. 427. 428. 429. 430. 431- 432. if " 18 to 30 " " 3 50 2 " 18 to 30 " " 4 00 extra fine finish, 2 in. diameter, 36 in. focus, 6 00 " 2£ " 44 '* 10 00 3 " 48 " 25 00 3i " 54 " 50 00 " 4 " 60 " 80 00 No 435 436 437 438 439 440 ILLUSTRATED CATALOGUE. 29 PRISMS. Price Solid Flint Glass Prisms, 3 inches long, each 50 60 80 1 00 1 25 1 50 READING AND PICTURE GLASSES. 524. Reading Glass, oxidized metal frame, double convex lens, 2 inches diameter 75 52O. Reading Glass, oxidized metal frame, double convex lens, 2^ inches diameter 1 00 527. Reading Glass, oxidized metal frame, double convex lens, 3$ inches d iameter 1 75 529. Reading Glass, oxidized metal frame, double convex lens, 4^ inches diameter 3 00 530. Reading Glassy gilt metal frame, ivory handle, one double convex lens, 2.\ inches diameter 2 25 531. Reading Glass, gilt metal frame, ivory handle, double convex lens, 4 Inches diameter 4 00 532. Reading Glass, black metal frame, wood handle, double convex lens, 3 inches long by \\ inches wide 125 533. Reading Glass, black metal frame, wood handle, double convex lens, 4 inches long by 2 inches wide 2 00 534. Picture Glasses, wood frame and handle, double convex lens, 5 inches diameter 4 00 535. Picture Glasses, wood frame and handle, double convex lens, 6 inches diameter 5 °° DOUBLE CYLINDRICAL READING GLASSES. These entirely new and very superior Reading Glasses are made of a double cylindrical lens, with its axes crossing at right angles, giving an entirely flat field free from chromatic or spherical aberration, reading to the extreme edge. Their great superiority to the old form of double convex lenses is apparent at a glance. 540. Reading Glass, double cylindrical, German silver frame, black handle, 2x3 inches 2 50 541. Reading Glass, double cylindrical, German silver frame, black handle, 2 T 3 e x 3i inches 3 5o 542. Reading Glass, double cylindrical, German silver frame, black handle, 2 * x3f inches 4 5° 543. Reading Glass, double cylindrical, German silver frame, black handle, 2 Sx4i inches 5 5° 30 A. & A. F. SPITZLFSl No. Price. 544. Reading Glass, double cylindrical, German silver frame, black handle, 2^x4! inches $6 50 545. Reading Glass, double cylindrical, German silver frame, ivory handle, 2x3 inches 4 00 546. Reading Glass, double cylindrical, German silver frame, ivory handle, 2fV x 3i inches. ... 5 00 547. Reading Glass, double cylindrical, German silver frame, ivory handle, 2f 5 e X3l inches 6 00 54S. Reading Glass, double cylindrical, gilt frame, ivory handle, 2f 3 g-x3^ inches $6 00 549. Reading Glass, double cylindrical, gilt frame, ivory handle, 2fx4^ inches 9 50 550. Reading Glass, double cylindrical, gilt frame, ivory handle, 2^x4^ inches 10 50 ILLUSTRATED CATALOGUE. 31 Nos. 540 to 550, A. & A. F. SPITZLI'S Nos. 524 to 533. ILLUSTRATED CATALOGUE. 33 PRICES OF THE ECONOMIC MICROSCOPE APPARATUS, No. Price. 664. Eye-pieces for 100. Nos. 1, 2 or 3, each. ... $4 50 665. Eye-pieces for 101. Nos. 1, 2 or 3, each 5 00 666. Side Condensing- Lens 2 50 667. Stage-Forceps 2 50 668. Pliers 35 ADDITIONAL APPARATUS. 630. lleberkuhn to i-inch object-glass 3 oo 640. Dark Well 2 00 641. Achromatic Condenser and Fitting S 00 642. Wenham's Parabolic Reflector, for Dark-field Illumination 8 00 643. Flat Mirror for 99, (in which case a double one is substituted for the concave single one, which has to be returned,) 2 75 644. Polarizing Apparatus, complete with Prisms^ film of Selenite, and adapter 13 50 645. Wollaston's Camera Lucida, for drawing an object. . . 6 50 646. Glass Micrometer, ruled into T f ths and To'o'o' tns of an inch 2 00 647. Small Live-Box 2 50 648. Glass Trough, complete with Wedge and Spring 2 50 649. All the above " Additional Apparatus," Nos. 630 to 649, if ordered at once 40 00 650. Vertical Camera Lucida for drawing objects 8 00 NEW NATIONAL SERIES OF OBJECTIVES. In order to meet the universal demand for good and well corrected Object- glasses adapted to the wants of true observers, who need reliable glasses at a mod- erate cost, impossible in lenses of the very highest grade, we have now introduced Heck's New National Series, which we confidently recommend as the best low-priced Objectives ever made. They are corrected with great care, are exceedingly well mounted, furnished with the Society Screw, and packed in handsome engraved Brass Boxes. The Series is as follows : Linear magni ying power nearly. Degrees of No Length. Draw Tubes. with Eye-pieces. angle of aperture. Price. No. 1 . No. 2. No. 3. 093 3 111. closed 12 20 32 7" * 7 00 694 2 in. closed 23 43 70 10 ° 7 00 695 1 m. closed 47 78 116 19 ° 9 00 696 i in. closed 65 no 170 25 ° 10 00 697 4 in. closed 100 170 260 38 ° 12 OO 698 iin. closed 200 340 520 75 ° 12 OO 698* \m. closed 275 480 75° 85 ° 15 OO 699 i m. closed 305 620 905 95 ° 2<) (id 699* T ' ¥ in. closed 730 1240 1930 no 30 OO 700 ¥0 in- closed 900 i55o 2500 120 ° 45 00 34 A- & A. F. SPITZLI'S ADDITIONAL APPARATUS. No. Price. 639. Lieberkuhn to i-inch Object-glass $ 3 50 651. All the above Additional Apparatus, from Nos. 630 to 649, not in- cluding 645, if ordered at once 40 00 653. Double Nose Piece, Angular 7 °° 653*.Triple Nose Piece " 1 5 00 662. Eye-pieces, Nos. 1, 2 or 3, for New National Microscopes, each 5 50 690. Stage, with Horizontal and Vertical Mechanical Movements, Sliding Object-holder, and Revolving Fitting, complete 20 00 691. Condensing Lens on Stand 6 00 692. Draw-tube for "The National Microscope" 3 5° Nos. 640 to 650 inclusive are applicable to these instruments. ACHROMATIC OBJECTIVES (FRENCH MANUFACTURE). These Object-glasses are all triple combinations, excepting the first, which is a doublet ; and are really well corrected lenses, giving a clear, well-lighted field with excellent definition. They all have the French Screw the same as that of No. 175, but can be fitted with the Society Screw for an additional cost of 75 cents each. 764. Achromatic Objective No. o, i-inch, doublet 2 50 765. " " " 1, i " triplet 300 766. " " " 2, i " " 3 50 767. " " " 3. * " " 400 768. " " " 4, i " " 5 00 769. " " " 5,-jV " " 7 00 770. " " " 6, » " " 1000 No. 888. (See Page 37.) ILLUSTRATED CATALOGUE. 35 No. 830 No. 832. A. & A. F. SPITZLI'S No. 845*. No. S44. No. 835. No. S30. No. 871. No. 877. No. 878. No. 891. ILLUSTRATED CATALOGUE. T>7 APPARATUS AND ACCESSORIES. No. Price. 806. Amici's Prism on Separate Stand $17 00 811. Equilateral Prism'on Separate Stand for oblique illumination 8 50 812. Adapter on Stand for use of Object-glass as Condenser 5 00 830. Large Bull's-eye Condensing Lens on Stand 850 830*. Large Bull's-eye Condensing Lens with Lamp attached 12 50 832. Smaller Condensing Lens on I'tand 6 00 834. Side Silver Reflector on Stand 8 50 835. Kainey's Light Moderator on Stand 8 50 842. Three-pronged Forceps, in German Silver, with Screw Adjustment. . 7 00 843. Three-pronged Forceps 6 00 844. Stage Forceps : 3 50 844*. Paper-pointed Forceps 50 846. Eye-piece Micrometer, with Jackson's Adjusting Screw 8 50 847. Stage Micrometer, mountediin brass 4 50 848. Stage Micrometer, mounted in card . . 225 849. Stage Micrometer, mounted in brass, parts of English Inch and Milli- metre 6 00 849*.Stage Micrometer, mounted in card, parts of English Inch and Milli- metre 3 5° 871. Glass Slip with Ledge 40 872. Growing-cell, for preserving objects alive in water for many days. ... 45° 873. Set of Six Live-traps and Trough, in Case, complete 12 50 874. Live-trap 3 00 875. Frog-plate, with Bag.'etc, complete 4 5° 876. Glass Slip, with Hollow and Ledge 50 877. Glass Slip, with Hollow and Ledge and Lip 1 50 878. Glass Slip, with Hollow 15 880. Glass Tubes, Set of Three 5° 882. Opal Glass, for Moderating the Light, 3x1 inch. 40 883. Blue Glass, for Moderating the Light, 3x1 inch 4° 886. Astral Oil Lamp, Flat Wick and Shade, with arrangement for vary- ing height of flame above the table 6 50 886*. Case for Lamp, No. 186, and 1 chimney 4 °° 888. fc Gas Lamp, ArgandjBurner, Shade and six feet of flexible tubing, with arrangements for varying height of flame above the table 13 50 {See Page 34.) 889. FiddianV Microscope Illuminator, in Case 15 °o 890. Lamp Ch*imneys,>r Nos. 886* or 888* 20 891. Weber's Slip, with Convex Cell 75 38 A. & A. F. SPITZLI'S FIDDIAN'S MICROSCOPE ILLUMINATOR. LAMP WHEN PACKED IN CASE. EXTERIOR OF CASE. LAMP. No. 898. Fiddian's Microscope Illuminator, nickel plated $15 00 This very convenient and useful Lamp has been designed to combine the quali- ties of other Microscope Lamps, together with greater portability, the whole fitting into a brass tubular box, the exterior of which is covered with morocco leather, the lid forming the stand of the Lamp. The metallic chimney being telescopic, occu- pies a very small compass ; the condenser fits into the cell in front. The reservoir is of brass, and will contain sufficient petroleum for six hours' consumption. The entire Lamp fitting into the case from the top, escape of the oil is prevented. In trimming the Lamp care should be taken that the wick is perfectly dry, and the petroleum of good quality ; also that none of the oil gets upon the metallic chimney or reservoir, or a bad smell will be given off until the oil is burnt away. In using the Lamp it will be found convenient to slightly incline it, so as to bring the broad surface of the flame more parallel with the surface of the mirror of the Microscope. When it is necessary to re-line the chimney, screw off the sliding portion, wash out the old lining, and recoat it with superfine Plaster of Paris. When dry it will be found ready for use — a few minutes will be found suffi- cient to do this. Size of Case: — Height, 6 inches; Diameter, 3 inches. 899. Beck's Microscope Lamp. This very port- able, simple, and cheap lamp, is arranged to carry the flame at any desired height above the table, thus adapting it to the use of all sizes of Microscopes. The shade is of paper, enamelled green on the exterior, affording full protection to the eyes, and emitting no heat. The base is heavy, and the lamp perfectly steady at any height $5 00 German Student Lamp. Brass 5 00 " " Nickel-plated.. 6 00 ILLUSTRATED CATALOGUE. 39 No. Price. 902. Dissecting Lamp. Large base, with Condenser and Chimney. Also, an upper shade and reflector combined to shade the eyes and intensify the light on the work. With box. $10 00 Without box 8 00 902.* Smaller Dissecting Lamp, with box. 7 °° Without box 500 902.** Smaller Dissecting Lamp 4 00 902.*** Condensers, Separate, from $1.00 to 5 °° 902.**** Lamps, with Shades, from $2.00 to 6 00 902***. These condensers are furnished separate or with fixtures to attach to lamp 902****, or on stands. 902****. The Shades for these lamps are of various shapes. When ordering, state what instru- ment is used ; or, if none, what position is occupied while dissecting. No. 911. No. 913. No. 912. No. 909. No. 923. No. 915 4o A. & A. F. SPITZLFS I. 2. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18 Nos. 916-919. No. Price. 903. Forceps, brass, 3 inches long 25 904. " Quekett's, for taking objects out of deep bottles 2 50 905. " Bull-nose 1 00 906. " Cutting 2 50 906*. " opening by pressure 2 00 907. " Steel Nickel-plated, straight, 4 inches long 1 00 90S. " " " curved, 4 " . . 1 00 ^09. " " " " 4 " very delicate. . . 1 50 910. " straight, 4 " . . 1 50 911. Scissors for dissecting, straight blades, very delicate ; 50 912. " " blades curved on the flat 1 '50 913. " elbow blades 1 50 Nos. 911, 912 and 913 are of most excellent quality and finish ; 912 is without doubt the most convenient and safest instrument available for clearing a sample of woolen goods of the nap on back or face. There is no danger of smut as with singeing, or of scraping and cutting as in shaving, even with the best knife. Nos. 911*, 912 s and 913 s are similar, also very fine, each 1 00 911**. Fine Scissors, straight blades, blunt or sharp points 75 91 1 ' ' '. Small Scissors, straight blades, blunt or sharp points 50 914. Scissors for dissecting, very strong 1 25 (ji 5. Scissors for dissecting, with spring, exceedingly delicate 6 00 c)M>. Xeedle-holder for Dissecting Needles, Fig. 1 75 ILLUSTRATED CATALOGUE. 41 No. Price. 916*. Needle-holder for Dissecting Needles, 65 916**. " " " 50 916***. " " " 25 917- straight point, ebony handle 15 917*- " metalic handle 25 9I7**- " " 10 918. Needle-hook for dissecting 15 918*. for dissecting double points. Fig. 2 ■ . . 75 918**. for dissecting triple points. Fig. 3 1 00 919. Knives for dissecting, Figs. 5 to 18 (very convenient in the designing room), each 75 920. Case of Dissecting Instruments, containing 1 pair forceps, 1 pair scissors, 2 dissecting knives No. 919, 2 needle-holders, with needles. 7 50 921. Case of Dissecting Instruments, containing 2 pair forceps, 2 pair scissors, 3 dissecting knives, 2 needle-holders, with needles, 1 Val- entine's knife. (We can furnish cases with any number of pieces to order) 1 5 OO 922. Dr. Kanvier's "Necessaire" 3 00 This indispensable little piece of apparatus, which is in use in all the hospitals in Paris, and by most Microscopists there, consists of a circular base of polished wood, in which are arranged six reagent bottles, with ground capillary-tube stop- pers, the whole covered with a low bell-glass, to exclude dust. 923. Knife, Valentine's, for cutting sections of soft tissues 6 50 924. Knife, for use with section cutters, in Morocco Case 3 50 925. Knife, for use with section cutters, heavy blade, in Morocco Case. . . 5 00 These knives are guaranteed to be of the very first quality. Each is ground flat on one side and hollow on the other, and can be furnished to cut toward or from the operator, as desired. They are especially convenient for shaving the nap of samples before dissecting. 928 929 930 93i 932 933 935 936 937 938 939 940 941 942 943 944 945 Glass Cells, of various sizes, shapes and depths, per dozen 1 00 Block-Tin Cells, of various sizes and depths, for fluid and balsam mountings, per dozen 50 Hard-Rubber Cells, of various sizes and depths, for dry and opaque mountings, per dozen . 15 Thin Glass, in sheets, No. 3, -g-g to rio. P er oz .... 75 " 2, T jj to ,}o " 100 " l ' Tjo to 2^» or thinner, per oz 1 50 " in squares, " 3, per dozen, 18 cents " 1 25 " " "2, " 20 " " 2 25 "1, " 25 " " 2 75 in circles, "3, " 20 " " 2 25 "2, " 25 " " 2 75 "1, " 30 " " 3 75 Watch Glasses, all sizes, each 7 cents, per dozen 75 Dipping and Dropping Tubes, each 10 Pippits, with bulb , 25 Test Tubes, all sizes, each, 3 to 8 cents, per dozen 30 to 75 Bell Glass, for preserving objects from dust during preparation 50 42 A. & A. F. SPITZLI'S No. 947. Canada Balsam, pure, in collapsible tubes g48. " " in chloroform, requires no heat, per bottle. . . 049. " " in Benzole, " " 950. Damar, 951. Glycerine, pure, " 952. Glycerine, Camphorated, for mounting fresh-water algae, per bottle. 953- " J ell y 954. Deane's Medium 955. Farrant's Medium 956. Absolute Alcohol, (Dr. Squibb's) 957. Benzole, pure 958. Brunswick Black 959. Asphalte 960. Gold-Size No. 947. No. 961. Price, 25 50 50 50 25 25 50 35 60 25 25 25 25 25 No. 969. 961. Marine Glue, per bottle 962. Oil of Cloves " 963. Bell's Cement, " 963.* Brown's Transparent Rubber Cement, per bottle 964. White Zinc Cement, " 965. Punches, various sizes, £ inch to 1 inch each, 50 to 1 965.* Improved Punch for cutting cells from Sheet Wax 1 50 966. Instrument for cutting circles of thin glass, in case 10 00 967. Glaziers' Diamonds, from 4 00 to 10 00 968. Writing Diamonds, each 3 50 No. 967. No. 968. ILLUSTRATED CATALOGUE. 43 No. Price. 969. Capped Bottles for containing fluid used in mounting objects, each. . . 50 970. Dropping Bottles with glass bulb stopper, each 25 971. Dropping Bottles with rubber top stopper, each 30 972. Small Collecting Bottles, per dozen 30 to 1 00 972*. Capillary Bottles each 40 973. Wright's Diatom Collecting Bottle, complete in case 4 00 974. Mounting Cabinet, as arranged by Mr. Walmsley ; containing 6 compressors, wood, 6 ditto nickel-plated, Steel Forceps, Scissors, Knife, Needles, Turn-table, Brass Table and Lamp, gross slips, \ oz. assorted Squares and Circles, 1 doz. Hard-Rubber Cells, 1 doz. Block-tin Cells, 3 Watch-glasses, Dropping Tube, Tube of Balsam, Damar or Balsam, Glycerine, Glycerine Jelly, Hsematoxylon, Brunswick Black, Gold-size, Oil of Cloves, White Zinc Cement, Dropping Bottle, 1 Nest of Saucers, wide-mouth Glass Jar for So- lutions, 2 Camel's-hair Brushes in long handles. The whole packed in a polished mahogany cabinet with lock 25 00 975. Porcelain Saucers, in nests of 5 with cover, all fitting dust tight. The most useful of all articles in staining tissues and soaking in oil of cloves (two sizes) 60 and 80 976. Hot-water Drying Case, for drying tissues and hardening Balsam mountings, made entirely of heavy Planished Copper ; will harden twelve dozen specimens at once 15 00 STAINING AND INJECTING FLUIDS, ETC. 977. Haematoxylon, per bottle 25 978. Ammonia Carmine, per bottle 25 979. Borax Carmine, per bottle 25 980. Carmine Red, per bottle 35 981. Dr. Woodward's Violet Carmine, per bottle. 25 982. Methyl Aniline, Green, per bottle 25 983. Magenta Aniline, Red, per bottle 25 984. Blue Aniline, per bottle 25 985. Eosin, per bottle 25 986. Osmic Acid, 3*3 oz. in glass capsule • . 3 00 987. Picro Carmine, per bottle 25 988. Sulphindigotate of Soda (Dr. Seller's), per bottle 25 989. Carmine Injecting, Gelatine (Dr. Seiler's), per oz 1 00 One ounce of this Gelatine dissolved in ten ounces of distilled water forms an admirable Injecting Fluid. Adhesive Labels, Plain White, Round or Oval, per box 10 " Assorted Colors, Square, neatly bordered, per 100. . 25 Fronts for covering slides, handsome gold design, per 100. . 50 •• " for covering slides, handsome bronze design, per 100, 30 Backs for covering slides, per 100 '. IO Backs or fronts if with holes punched, extra, per 100 15 990 991 992 993 994 44 A. & A. F. SPITZLI'S " DISSECTING BRUSHES, ETC. No. Price. 995. Dissecting Brushes for clearing the threads of a sample after ravelling out a few threads 75 996. Dissecting Brush ..... 50 997- " " 25 998. Perforated Card Board Sample Stretcher for dissecting stage 5 998*. " White Wood " " " 10 998**. " Nickle-plated " " " 25 999. A set of 20 different textile fibers, properly and separately mounted on microscopic slides. Necessary if a thorough study of fibers is un- dertaken. Price per slide 60 cents. Per set 10 00 Send 30 cents for R. & J. Beck's Catalogue of Microscopic Objects, &c, &c. ILLUSTRATED CATALOGUE. CABINET FOR MICROSCOPIC OBJECTS. 45 No, 1466. Best Spanish Mahogany Cabinet, with glass panel and deep drawers at bottom, to hold 1,000 objects $7° °° We can furnish any of R. & J. Beck's London and Phildelphia goods in this line at their lowest retail prices. 4 6 A. & A. F. SPITZLI'S CASES OF MOUNTING MATERIALS, 1360. Collection of Mounting Materials and Dissecting Instru- ments, consisting of Wood-cutting Instrument and Chisel, instru- ment for cutting circles of thin glass, Glazier's Diamond, Writing Diamond, Cell-making Instrument, Brass Table and Lamp, Page's Forceps, Case of Dissecting Instruments containing 4 Knives, 2 Hooks, 2 Points, 3 pairs of Scissors, 3 Pairs of Forceps and Needle- holder, Valentine's Knife, 1 oz. Thin Glass, 9 dozen Slips 3 inch by 1 inch, 3 dozen Wooden Slips, 3 dozen Glass Cells, 200 Labels. 5 Capped Bottles containing Canada Balsam, Asphalt, Gold-size, Glycerine and Marine Glue, Bottle of Dean's Medium, 3 Stoppered Bottles for containing Chloroform, Nitric Acid and Liq. Potasse,. .$100 00 The whole packed in a Strong Mahogany Case. No. 1372. ILLUSTRATED CATALOGUE. 47 CASES OF MOUNTING MATERIALS. No. Price. 1361. Collection of Mounting Materials, consisting of Writing Dia- mond, Cell-making Instrument, Brass Table and Lamp, Page's Forceps, Case for Dissecting Instruments, 1 oz. Thin Glass, 6 dozen Slips 3 inch by 1 inch, 3 dozen Wooden Slips, 2 dozen Glass Cells, 150 Labels, 5 Capped Bottles containing Canada Balsam, Asphalt, Gold-size, Glycerine and Marine Glue, 1 bottle of Deane's Medium $40 00 The whole packed in a strong Mahogany Case. 1365. Reagent and Mounting Rack, containing 12 bottles filled with vari- ous reagents, cements, etc., each provided with a dropping tube fitted to the cork, and 10 test tubes with fittings 3 00 1368. Improved Wood Cutting Machine, with Chisel, packed in Mahogany Case 9 50 1369. Page's Wooden Forceps for holding Glass Slips when heated 50 1370. Smith's Mounting Instrument for pressing down the Cover on the Glass Slips, with a graduated pressure 3 OO 1372. Small Air-pump and Receiver 12 50 CABINETS FOR MICROSCOPIC OBJECTS. 1465. Mahogany Cabinet to hold 600 objects, with double glass doors and improved slide-rests, showing each object clearly when the drawers are pulled out, and allowing their easy removal 45 00 1466. Best Spanish Mahogany Cabinet, with glass panel and deep drawers at bottom, to hold 1,000 objects 70 00 1467. Honduras Mahogany Cabinet, without glass panel or deep draw- ers, to hold 1,000 objects 55 00 1468. Best Spanish Mahogany Cabinet, with glass panel, to hold 750 objects 50 00 1469. Honduras Mahogany Cabinet, without glass panel, to hold 750 objects 44 00 1470. Best Spanish Mahogany Cabinet, with glass panel, to hold 500 objects 4000 1471. Honduras Mahogany Cabinet, without glass panel, to hold 500 objects 35 00 In the above Cabinets there are porcelain tablets let into the fronts of the draw- ers. The drawers are numbered and the specimens lie flat. 48 A. & A. F. SPITZLI'S POSTAL BOXES FOR MICROSCOPIC OBJECTS. No. Price. 1482. Card-hoaki> Boxes fitted with Racks to hold 12 objects $ 15 1484. Postal Boxes, to take 1 object 6 1485- " " " 3 " 8 i486. Postal Boxes, to take 6 objects 10 14S7. " " " 12 " 12 1485. " " " 25 " 15 CASES FOR MICROSCOPIC OBJECTS. 1489. Portable Horizoni \i Slioe Case, with 12 Trays, holding 12 dozen objects, lying Mat, the same as in case No. 1471, with a sub- stantial cover of bookbinder's cloth 4 00 ILLUSTRATED CATALOGUE. 49 50 A. & A. F. SPITZLI'S SUNDRY OPTICAL INSTRUMENTS. Since writing our preface we have determined to insert in this Catalogue just enough matter of a more general character to convince our patrons that we are prepared to serve them in any way possible, and at the best market rates. While this is a great accommodation and saving to them, we will make it more so by al- lowing our " Outfit prices " and terms to include anything ordered through or from us. ACHROMATIC MARINE AND FIELD GLASSES. These Glasses are designated according to the diameter of the Object-glasses in French lines, as follows : II Lines are equal to i inch. 13 " " ly 3 g- inches. 15 " " I T6 " ' 17 " " l| 19 " " lj£ " 21 " " i£ 24 " " 2i 26 " " 2 T 5 « " They are all constructed with six lenses, unless the contrary is specially stated and are invariably well corrected and adapted to all visions. Trices range from $8 00 to $30 00 ALUMINIUM FIELD OR MARINE GLASSES. ' From 35 00 to 60 00 All kinds Opera Glasses, Lemare's and Bardou's included, prices ranging from 6 OO to 25 OO Aluminium Opera Glasses, from 20 00 to 35 OO ACHROMATIC SPY-GLASSES OR TELESCOPES. From 3 OO to 40 oo ASTRONOMICAL TELESCOPES. By Bardou, Paris, and R. & J. Beck, Philadelphia and London, from $60 00 to $2,400 00 ILLUSTRATED CATALOGUE. 5 I SPHERICAL SPECTACLE LENSES. Spherical, Cylindrical or Prismatic Lenses, of the First Quality only, fitted to frames at the following prices : No. Price. 2135. Periscopic or Double Convex White Lenses, from 5 to 72 inches focus, per pair $ 75 2136. Periscopic or Double Convex White Lenses, from 1 to 4f inches focus, per pair 1 25 2137. Double Convex White, Divided or Franklin Lenses, per pair 1 50 2138. " " Lenses, two foci on one glass, " 1 50 2139. Periscopic or Double Convex Tinted Lenses, Blue, Pink, Green or Smoke, per pair 1 50 2140. Periscopic or Double Concave White Lenses, from 5 to 72 inches focus, per pair 75 2141. Periscopic or Double Concave White Lenses, from 1 to \\ inches focus, per pair 1 25 2142. Periscopic or Double Concave Tinted Lenses, Blue, Pink, Green or Smoke, per pair 1 50 2143. Plane, Blue, Green or Smoke-colored Glasses, per pair 1 00 CYLINDRICAL SPECTACLE LENSES. 2145. Piano-Convex or Concave Cylindrical White Lenses, per pair $2 00 2146. " " " " single lens. . . I 25 2147. Sphero-Convex " " " " per pair 4 00 2148. " " " " single lens. .. . 2 50 2149. Piano-Convex or Concave Cylindrical and Prismatic White Lenses, per pair 4 00 2150. Piano-Convex or Concave Cylindrical and Prismatic White Lenses, single lens 2 50 21 5 1. Sphero-Convex or Concave Cylindrical and Prismatic White Lenses, per pair 5 50 2152. Sphero-Convex or Concave Cylindrical and Prismatic White Lenses, single lens 3 00 2153. Crossed Cylindrical Lenses, Convex or Concave, White, per pair, . . 7 00 2154. " " " " " " single lens, 4 00 PRISMATIC SPECTACLE LENSES, 2160. Plane Prismatic Lenses, White, per pair $2 00 2161. " " " single prism 1 25 2162. Sphero-Prismatic " " per pair 4 00 2163. " " " single prism 2 50 52 A. & A. F. SPITZLI'S No. 2165. 2166. 2167. 2170. 2i;r. 2172. 2173- 2174. 2175- 2176. 2180. 2181. 2IS2 2183. 2184. 2185. 2IS6. 2IS 7 . PEBBLE SPECTACLE LENSES, ETC. Price. Periscopic or Double Convex Pebble Lenses, per pair $3 00 " " Concave " " 3 00 A set of Colored Lenses to aid the designer in originating new shades and tints of colors, and to discover errors of the dyer, per set, with handles 5 00 Per set, without handles 3 00 25 75 20 20 75 50 75 Single Lenses, each, with handle 1 " " " without " Spectacle Case, Morocco, with tuck " " " open end " " Fine English Leather " Scotch Plaid Frog Mouth. 50 to 1 " " German Silver, Plated 1 25 to 1 Velvet Chatelaine Case. 1 00 to 3 00 Morocco " " 75 to 2 00 Eye-Glass Case, Morocco, open end 15 " Finest Russia Leather 35 Hooks, Gold 1 50 to 5 00 Gilt 25 "' " Steel 15 Chains, Gold, with Hook 4 00 to 6 50 Guard, Pure Silk 10 Cateut 10 NICOL'S PRISMS. 2200. N col 's Prism of Ice ar d Spar. S m llimetres across face 2201. " 9 " * 2202. " " 10 '• ' 2203. " " 11 " ' 2204. " 12 " ' 2205. " 14 " ' 2206. " 16 " ' 2207. " " 20 " ' 2 25 2 75 3 50 4 00 4 75 ° 75 9 75 20 00 Larger sizes imported to order. CLAUDE LORRAINE, OR LANDSCAPE MIRRORS. Claude Lorraine, or Landscape Mirror. A pleasing and beautiful instrument, lor viewing clouds, landscapes, etc. As the mirror condenses or diminishes the view into a true perspective effect, the instrument is invaluable to the artist, and a very desirable companion for tourists. Six sizes, as follows: ILLUSTRATED CATALOGUE. 2 2 20. MI rror,o£ inches ong by 5J inc les 2221. 74 5i 2222. 7i 6i 2223. " 81 6i 2224. " &i 7* 2225. " 9i 7* 6 00 7 50 9 00 10 00 11 00 HAND MIRRORS, IN BLACK WOOD FRAMES, 2230. Mirror Magnifying on one side, diminishing on the other, 6 inches diameter '. 5 00 2231. Mirror, Cylindrical (elongating and shortening), 6 inches diameter, 3 00 2232 2233 2234 2235 Multiplying (producing several images), 6 inches diameter, 5 00 Magnifying on one side, plane on the other, 3^ in. diameter, 1 75 5 2 50 " " " 6 " 3 00 HAND MIRRORS, IN FINE MAHOGANY FRAMES, 2238. Mirror, Magnifying on one side, diminishing on the other, 5 inches diameter 3 00 2239. Mirror, Magnifying on one side, diminishing on the other, 6 inches diameter 4 00 MAGIC LANTERNS. In Japanned Tin, with Coal-Oil Lamps. 2245. Magic Lantern, 6 inches high, with 6 glass and 3 movable slides. . 2246. " 7 " " 6 " 3 " 2247. " 8 " " 6 " • 3 " 2248. " 9 " " 6 " 3 " 5 00 6 00 7 5o 9 00 KLAEGER INSECT PINS. 2250. The Genuine Klaeger Insect Pins, five sizes, per 100 15 " 1000 125 2255. Zoetrope, or Wheel of Life 3 °° A mechanical and optical exemplification of the persistence of vision, and a val- uable aid in illustrating the wonders of optics. The turning of the drum or cylin- der brings into view the varying form or position of a figure in rapid succession, until they blend into a perfect image full of motion and natural action. 54 A. & A. F. SPITZLI'S ^o. Prick. 2256. Extra views for Zoetrope, per set of six $1 00 2260. Parlor Kaleidoscope, on Stand with Brass Front 2 00 CAMERA LUCIDA. 2265. Camera Lucida, mounted on heavy brass base 7 50 2266. Camera Lucida, with joint for inclination, and clamp for attaching to table 10 00 2267. Camera Lucida, mounted with double joints for inclination, ex- tending rod and two colored glasses for modifying the light, with clamps for attaching to table 1 7 50 The Camera Lucida is a most useful instrument for the Designer, Artist or Draughtsman, enabling him to draw very readily a landscape or any desired object correctly. Its use may be readily learned by observing the following directions : The instrument being fixed to the table and paper on which the drawing is to be made, its stem should be inclined so as to bring the prism nearly over the centre of the paper, and the pin on which the prism turns placed truly horizontal. The prism is next to be turned upon its pin, until the transparent rectangular face be placed opposite to the objects to be delineated, when the upper black sur- face of the eye-piece will be on the top of the instrument ; and through the aper- ture in this the artist is to look perpendicularly downwards at his paper. The black eye-piece is movable, and in ordinary circumstances is to be in such a position that the edge of the small transparent part at the back of the prism shall intercept about half the eye-hole. The artist then, looking through the eye-hole, directly downwards at his paper, should see the objects he wishes to draw, ap- parently distributed over the paper. For, since the eye is larger than the eye-hole, he sees through both halves of the hole at the same time without moving his head. He sees the paper through the nearer half, and sees the objects at the same time through the farther half, apparently in the same direction, by means of reflection, through the prism. The position of the eye-hole is the circumstance, above all others, necessary to be attended to in adjusting the Camera Lucida for use ; for, on the due position of this hole depends the possibility of seeing both the pencil and the objects dis- tinctly at the same time. If the eye-hole be moved, so that nearly the whole of its aperture be over the paper, and a very small portion over the prism, then the pencil and paper will be- very distinctly seen ; but the objects to be delineated very dimly. If, on the other hand, the aperture be mostly over the prism, and but a small portion over the paper, then the objects will be seen distinctly, but the pencil and paper will be very faint. But there will always be an intermediate position 1 varying according as the objects or the paper happen to be most illuminated) in which both will be suffi- ciently visible for the purpose of delineation, though not ipiite so clear as to the naked eye. This intermediate position is easily found with a little practice. The farther the prism is removed from the paper, that is. the longer the stem is drawn out, the larger the objects will be represented in the drawing, and accord- ingly the less extensive the view. ILLUSTRATED CATALOGUE. 55 WINDOW MIRRORS. No. Price. 2275. Patent Window Mirrors, complete for putting up $3 00 The Window Minor, or "Bo Peep," enables any one at an upper window to observe who may be at the front-door, whilst remaining himself concealed, afford- ing also a panoramic view of the street in both directions for several blocks. BECK'S NEW PATENT CLINICAL THERMOMETERS. We have given great attention to the manufacture of these instruments, which are useless if not entirely accurate, and are certain that in all respects those we now offer to the profession are superior to any heretofore sold in the United States. One of the greatest imperfections in all others has been the obliteration of the scales by the action of perspiration, etc. This we have entirely obviated by using a black enamel in the scales and figures, which we guarantee indestructible, except by violence ; and by a constriction (patented) in the tube, the loss of the index is rendered impossible. Each thermometer is guaranteed to be correct ; but, if de- sired, we can furnish them with the Kew verification for an addditional charge of 50 cents each. — (./?. cV J. Beck's Catalogue.) The prices are as follows : 3$ inch in Ebony or Boxwood case $2 75 4 " " " " 3 00 5 " " " 3 SO 6 " " " " 400 5^-inch Patent Surface Thermometer, exceedingly sensitive, in fine snap Morocco case 5 00 Steward's Patent Insulated, Surface Clinical Thermometer, in Morocco case 20 00 Dr. Mattison's Patent Insulated, Surface Clinical Thermometer, in snap Morocco case 6 00 Vaginal Clinical Thermometer, 8 inches in length, with tube protected, by a Nickel Silver Sheath, in fine Morocco^case 7 50 ^6 A. & A. F. SPITZLI'S . MATHEMATICAL INSTRUMENTS, This Catalogue comprises a very complete assortment of Mathematical Instru- ments, containing : Swiss Instruments, in 2 Qualities, Swiss " with Pivot Joint, English " German " French " of the very best quality and provided with the latest and best improvements. The needle-points of the best qualities have in place of the common needle a shouldered needle, which forms a much better and more reliable support. The Swiss Instruments specified — from No. 3125-3190-3216 — are superior to all others. Having a more graceful form and being hand-finished, they do not offend the eye with glossy or burnished surfaces which are easily produced by machinery, but are a sign of inferiority. The German Instruments are well made and of good quality ; they are mostly used in schools and by apprentices, and will even give good satisfaction to pro- fessional draughtsmen and designers. The French Instruments, of which we specify a complete assortment in cases as well as of separate pieces, recommend themselves on account of their great cheap- ness and comparatively satisfactory workmanship. For scholars and apprentices they will be found good enough, but they will not be sufficient for the use of ex- perts and professionals. Repairing of Instruments done at moderate charges. SUPERIOR SWISS INSTRUMENTS. OF BEST GERMAN SILVER AND ENGLISH STEEL. No. Price. 3125. Plain Dividers, 3^ inch, each $ 1 75 3126. " " with handle, 3^ inch, each 2 25 3127. Compasses, 3^ inch, with Pen, Pencil and Needle Points 6 00 3128. " 3^ " " fixed Needle Point, Pen and Pencil Points, 5 25 3129. 3^ " " fixed Needle and Pen Points (BowPen). . . 3 50 3130. 3^ " " fixed Needle and Pencil Points (BowPencil) 3 50 3131. Plain Dividers, 5 inch, each ... 2 20 3132. " 6 " 2 75 3133-1. Hairspring Dividers, 3 inch, with handle, each 2 60 3133- 5 inch, each 3 00 3133-2. " 6 inch, each 3 15 3134. Compasses, 5^ inch, with fixed Needle Point, Pen, Pencil Points and Lengthening Bar, each 7 00 3134^. Compasses, 4^ inch, with fixed Needle Point, Steel Pen, Pencil Points and Lengthening Bar, each 725 3135. Compasses, 6 inch, with Pen, Pencil, Needle Points and Lengthen- ing Bar, each 8 00 ILLUSTRATED CATALOGUE. 57 No. Price. 3136. Compasses, 6£ inch, with joint in each leg, Pen, Pencil, Needle Points and Lengthening Bar $0, 25 3137. Compasses, 7 inch, with joint in each leg, Pen, Pencil, Needle Points, Lengthening Bar and Dotting Pen 10 75 3137-1. Compasses, 7-J inch, with joint in each leg, Pen, Pencil, Needle Points, Lengthening Bar and Dotting Pen with 6 wheels 12 00 3138. Pocket Dividers, with sheath, 5 inch, each 3 00 3139. Pillar Compasses, with handles, Pen and Pencil Points to draw out, forming small Bows if required, each g 50 3139-1. Pillar Compasses, with 2 Lengthening Bars to strike larger circles, each 11 50 3140. Pocket Compasses, with folding Points, each 8 75 3 141. Triangular Compasses, for taking off three points, each 5 00 3141 -I. Triangular Compasses, with movable Bar, each " 5 75 3142. Whole and Half Dividers, 7J inch, each 4 00 3150. Minute Steelspring Dividers and Bows, 3 in set, 2^- inch, set... 3151. Steelspring Bow Dividers, with Ivory Handle 3 " each. 3152. " Bow Pen, " 3 " " 3153. " Bow Pencil " 3 " " 3154. " Bow Pen, Needle Point, Ivory Handle, 3 " " 3155. ' Bow Pencil " 3 " " 3156. " Bow Dividers, with Ivory Handle 3^ " " 3157. '■ Bow Pen, Needle Point, Ivory Handle, 3^ " " 3158. " Bow Pencil " " 3i " " 3156. Large Steelspring, Bow Dividers, 4! " " 3157. " Bow Pen, with Needle Point, Ivory Handle, 4f inch, each 3 25 3158. Large Steelspring Bow Pencil, with Needle Point, Ivory Handle, 4f inch, each 325 Morocco Cases for sets of 3151, 3152, 3153 or 3151, 3154, 3155, each 75 " for sets of 3156, 3157, 3158 each 1 00 " for sets of 3156L, 3157L, 3158L, each 1 25 3164. Drawing Pen with Ebony Handle, 4^ inch, each 1 OO 3i65- " " 5 " ■•• I 10 3166. " with joint, Ivory Handle, 4 inch, each I 40 3167. " with joint and pin, Ivory Handle, 4! inch, each 1 60 3168. " " " 5i " 1 80 316S-2. " " " and German Silver blades, si inch, each 1 80 3I69 Drawing Pen with German Silver blades, 6^ inch, each 2 00 3170. Border Pen for broad lines, 6-J inch, each 3 00 3170-2. " " improved, 6^ inch, each 3 50 Border Pen No. 31 70-2 may also be used as Railroad Pen by filling only the two outer pair of blades with ink. 3171. Curve Pen, 4^ inch, each ... I 5° 3171^. Railroad Pencil, each 3 2 5 3172. Railroad Pen with Ivory Handle, 5^ inch, each 3 50 3173. Railroad Pen, K. & E.'s improved, 5$ inch, each 3 75 8 25 2 20 2 50 2 50 2 85 2 85 2 00 3 00 3 00 2 75 ^ 8 A. & A. F. SPITZLI'S - The improvement of this instrument consists in having both pens bent in the same direction, and therefore lines can be drawn against straight edges and rules as perfect as with a ruling pen. No. Price. 3174. Dotting Pen with 6 wheels, 6 inch, each $3 75 3175. Dotting Pen with 6 wheels, improved, 6 inch, each 4 25 The improved Dotting Pen No. 3175 is highly prized, as it entirely prevents blotting. The reservoir after being filled is closed, and through a minute opening allows no more ink to the dotting wheel than is actually needed. 3176. Opisometer for measuring curved lines, each 1 80 3177. Tracer, each I 35 3178. Pricker, each 1 75 3180. Swiss Instruments in Morocco Cases, containing Nos. 3126, 3128 and 3166. .: 1000 3180-1. Swiss Instruments in Morocco Cases, containing Nos. 3133, 3132-4, 3166 and 316S 15 00 3180-2, 3180-3, 3180-4 are larger sizes. 3181 to 3187 inclusive are Swiss Instruments in Rosewood Cases, with fine Velve' $25 00 to 65 00 3181 to 3187 in Black Walnut (oiled) cases, each $2 to $4 less than Rosewood. Drawing Pens carefully set and sharpened, each 20 to 25]cents. Illustrated catalogue. 59 £ d £ JO '" O OS S - « P « g >, ■- c u X H X C rt cd & o V g X u u . Tj CD Pi *- is < Xj e* d oo '> w Q u in u a ja, I 55 > I0I > 162, 163, 171, each $6 00 4094. For Architects, containing 30 colors, Nos. 100, 104, 105, 106, 109, no, 116, 117, 121, 122, T26, 128, 129, 131, 132, 133, 135, 136, 137, 138, 142, 150, 152, 154, 155, 161, 162, 163, 170, 171 7 25 4095. For Machinists, containing 15 colors, Nos. 102, 103, 108, in, 112, 117, 127, 130, 131, 134, 140, 142, 152, 161, 171 4 50 4096. For Surveyors, containing 15 colors, Nos. 105, 114, 115, 116, 117, 118, 119, 120, 125, 131, 135, 151, 152, 153, 171 4 50 GERMAN COLORS IN CAKES. 4097. PER CAKE, 20 CTS. IOO. Azure Blue, Lufblau. IOI. Black Lead, Graphit. 102. Brick, Backstein. 103. Bronze, Bronce. IO4. Burnt Roman Ochre, Gebr. rom. Ocker. IO5. Burnt Sienna, Gebr. Sienna. I06. Burnt Umber, Gebr. Umber. 107. Brown Ochre, Brauner Ocker. I08. Cast-iron, Gusseisen. IO9. Chinese White, Deckweiss. 110. Chrome Yellow, Chromgelb, hell. in. Composition Metal, Compositions metall. 112. Copper, Kupfer. "3- Deep Chrome, Chromgelb, dunkel. 114. Field Brown, Feldbraun. ii5- Forest Green, Waldgrun. 116. French Green, Franzosichgrun. 117. Gamboge, Gummigutt. 118. Garden Green, Hausgartengrun. 119. Grape Violet, Rebenviolett. 120. Heath Green, Haidegrun. 121. Indian Red, Indischroth. 122. Indigo, Indigo. 123. Lamp Black, Lampenschwarz. 124. Light Red, Lichtroth. 125. Meadow Green, Wiesengrun. 126. Naples Yellow, Neapelgelb. 126^. Neutral Tint, Neutral-Tinte. 127. Oak, Eichenholz. 128. Orange, Orange. 129. Payne's Grey, Payne's Grau. 130. Pine, Tannenholz. 131. Prussian Blue, Preussischblau, 72 A. & A. F. SPITZLFS 132. Prussian Green, Preussischgrun, 133- Raw Sienna, Sienna. 134- Sand Stone, Sandstein. 135. Sap Green, Saftgrun. 136. Red Lead, Saturn roth. 137. Vandyke Brown, Vandyke Braun. 138. Venetian Red, Venetianischroth. 139- Violet Lake, Violetter Lack. 140. Wood, Holz. 141. Yellow Lake, Gelber Lack. 142. Yellow Ochre, Gelber Ocker. 4098. PER CAKE, 30 CTS. 150. Crimson Lake, Carminlack, hell. 151. Farm Buildings, Oeconomiegebaude. 152. Sepia, Sepia, naturlich. 153- Stone Buildings, Steinerne Gebaude 154- Ultramarine, Ultramarin. 155- Vermilion, Zinnober. 4098^. PER CAKE, 60 CTS. 160. Brilliant Yellow, Brillantgelb. 161. Cobalt, Cobaltblau. 162. Indian Yellow, Indischgelb. 163. Rose Madder, Krapplack, rosa. 164. Scarlet Lake, Scharlachlack. 4099. PER CAKE, 90 CTS. 170. Brilliant Blue, Brillantblau. 171. Carmine, extra fine. Carmin, extra fein. 172. Ultramarine, extra fine. Ultramarin, extra fein. WINSOR & NEWTON'S WATER COLORS. FULL CAKE OR PAN, 25 CTS. HALF CAKE OR PAN, 1 5 CTS. 410c . I. Antwerp Blue. 18. Gamboge. 32. Orange Chrome 2. Bistre. 19. Hooker's Green, 33- Payne's Gray. 3- Blue Black. No. 1. 34- Prussian Blue. *4- British Ink. 20. Hooker's Green, 35- Prussian Green. 5- Brown Ochre. No. 2. 36. Raw Sienna. 6. Brown Pink. 21. Indigo. 37- Raw Umber. *7- Bronze 22. Indian Red. *38. Red Lead. 8. Burnt Sienna. 23- Italian Pink. *39- Red Ochre. 9- Burnt Umber. 24. Ivory Black. 40. Roman Ochre. 10. Chinese White. *25. King's Yellow. 41. Sap Green. 11. Chrome Yellow. 26. Lamp Black. 42. Terre Verte. 12. Cologne Earth. 27- Light Red. 43- Vandyke Brown r 4- Deep Chrome. 28. Naples Yellow. 44. Venetian Red. ILLUSTRATED CATALOGUE. 73 f i$. Dragon's Blood. 1 6. Emerald Green. '17. Flake White. 29. Neutral Tint. 30. New Blue. 31. Olive Green. 45. Vermilion. 47. Yellow Lake. 48. Yellow Ochre. FULL CAKE OR PAN, 45 CTS. HALF CAKE OR PAN, 25 CTS. 4IOI. *4g. Black Lead. 50. Brown Madder. *5i. Chalon's Brown. *I3. Constant White. 52. Crimson Lake. 53. Indian Yellow. 54. Mars Yellow. 55. Neutral Orange. 56. Purple Lake. 57. Roman Sepia. 58. Ruben's Madder. 59. Scarlet Lake. 60. Scarlet Vermilion. 61. Sepia. 62. Warm Sepia. FULL CAKE OR PAN, 65 CTS. HALF CAKE OR PAN, 35 CTS. 4I02. 63. Cobalt Blue. 64. Orange Vermilion. 65. Violet Carmine. FULL CAKE OR PAN, 90 CTS. 4IO3. 66. Aureolin. 67. Burnt Carmine. 68. Cadmium Yellow. 69. Cadmium Orange. 70. Carmine. 71. French Blue. HALF CAKE OR PAN, 45 CTS. 72. Gallstone. 73. Green Oxide of Chromium. 74. Indian Purple. 75. Intense Blue. 76. Lemon Yellow. 77. Pale Cadmium Yellow. 78. Pink Madder. 79. Pure Scarlet. 80. Rose Madder. 81. Viridian. HALF CAKE OR PAN, 70 CTS. *86. Madder Carmine. 87. Mars Orange. FULL CAKE OR PAN, $1.40. 4IO4. 82. Purple Madder. ^85. Field's Orange 83. Smalt. Vermilion. 84. Ultramarine Ash. 4105. 88. Genuine Ultramarine, J-cake, each $2 25 Colors marked * are not made in full and half pans. WINSOR & NEWTON'S FULL CAKE WATER COLOR BOXES. No. 4106. 12 4107. 18 4108. 12 4109. 18 4110. 12 4111. 18 4112. 12 4113- l8 41 14. 24 FITTED. Price. Cakes, Polished Mahogany Slide Lid Box, each $5 00 " 7 50 Lock Box " 600 " " 9 00 " " Lock and Drawer Box, each 6 50 " " " " 10 00 " Complete Box fitted, " 1000 " " 14 00 " •• " " 18 00 74 A. & A. F. SPITZLI'S - HALF CAKE WATER COLOR BOXES. KITTED No. Prick. 41 16. 12 Half Cakes, Polished Mahogany Slide Lid Box, each $3 00 4117. 18 '• " 4 25 4118. 12 " " Lock Box, " 4 50 4119. 18 " " " " 6 00 4120. 12 " Lock and Drawer Box, each. . . 5 50 4121. 18 " " " . . 7 00 4122. 12 " " Complete Box fitted, " ... 6 00 4123. 18 " " '' "... 8 00 4124. 12 " Caddy Lid Box complete fitted, each q 00 4124-1. 18. Half Cakes, Polished Mahogany, Caddy Lid Box complete fitted, each 11 00 FRENCH WATER COLOR BOXES, IN GREAT VARIETY, FROM 50 CENTS TO $>IO EACH. EMPTY JAPANNED TIN BOXES, FOR MOIST COLORS IN PANS. Winsor & Newton's. American. 4125, for 6 full or 12 half pans, each $1 50 each $1 00 4126, for 8 full or 16 half pans, each 1 75 4127, for 10 full or 20 half pans, each 2 00 4128, for 12 full or 24 half pans, each 2 25 4129, for 16 full or 32 half pans, each 2 50 4130, for 20 full or 40 half pans, each 2 75 4131, for 24 full or 48 half pans, each 3 00 I 15 " I 25 " I 45 " I 60 " 1 75 " 2 00 JAPANNED TIN BOXES. WITH COLORS FOR SKETCHINC. 4131^. Japanned tin box with colors, containing: 6 8 10 12 16 20 24 colors. $1 35 $1 50 $1 80 $2 20 $3 00 $3 75 I4 50 ILLUSTRATED CATALOGUE. 75 WATER COLOR LIQUIDS. No. Price. 4132. Winsor & Newton's Chinese White, each 40 4133- Indian Ink, " 40 4134- Oxgall " 40 4135- " Gold Ink, " 65 4136. Carmine, " 50 4137. Indelible Brown Ink, each 50 3138. Prout's Brown, each 50 4 1 38^. Sepia, each 50 LIQUID INDELIBLE DRAWING INK. 4160. Liquid Indelible Drawing Ink, Black, each 50 4161. Brown, " 50 4162. Blue, " 50 4163. Green, " 50 4164. Scarlet, " 50 4165. Carmine, each 50 These Indelible Drawing Inks are a valuable addition to the draughtsman's outfit, and specially adapted for Mechanical Drawing. The lines drawn with these colors are perfectly indelible and will not be blurred or defaced by frequently ap- plied brush tints. Used with the brush large washes can be laid on more even and with less trouble than with cake or moist water colors. 4139. Keuffel and Esser's Liquid Color, Carmine, each 40 4140. " " Sepia, " 40 4141. " Oxgall " 30 4142. " " Blue, " 30 4143. " " Green, " 30 4154. Dr. Schoenfeldt's Chinese White in bottles, " 35 4155. " " in tubes, " 20 This Chinese White is highly recommended and used by many of our leading artists in preference to all others. Wood engravers will find it to suit their pur- pose best. 4145. Pure Gold in Cakes, each 2 00 4146. Pure Gold in Shells, each 20 4147. Pure Gold in Cups, 1 inch, each 15 4148. Pure Gold in Cups, i± inch, each 25 41 50. Pure Silver in Shells, each 10 4151. Metallic Cake Colors, in China Saucers, Gold. 35 4152. Metallic Cake Colors, in China Saucers, Silver 30 4156. California Gold-Paint for decorating purposes, per box, containing 2 bottles, each 35 76 A. & A. F. SPITZLI'S - EMPTY MAHOGANY COLOR BOXES WITH SLIDE LID. 4170. For W. & N. Half Cakes, 12 18 24 colors. each, 50 60 75 41 71. For W. & N. Full Cakes, 12 18 24 colors. each, 60 75 1 00 Chinese or Indian Inks, solid and liquid ; also Sable and Camel Hair Brushes in large varieties. CHINA AND GLASSWARE. No. 4348 435o 435i 4352 4353 4354 4355 4353-1- 4354-1- 4355-1- Poole's Patent Ink Slab, each Keuftel and Esser's Patent Ink Slab, with cover, ifxi^ inch, each. 2ix 5 f " " . Nest of Cabinet Saucers, 6 in set, 2-f inch, set 6 " 2* " " 3± 3f 2* 3i 6 6 " deep 4 " 4 " 4 " 31 •' " 4359. Architect's Slant and Basin, with 8 divisions and cup, each. 4360. Ink or Color Slab, 3 holes and slope, I^x2f inch, each . . .. 436l- " " 2§x3| " 4362. " " 2fx4^ " 4363- " " 3*4* " 4363*- " 3ix5 " 4364. Well Slab, with 3 Wells and Slope, each 4365- " " 5 " 4366. Sloping Tile, 3 divisions, 2^x4 inch, each 4367- 4 3ix7f 4368. 5 3ix7l 4369- 6 3ix7f 4370. 8 6x71 4371- 10 6x7^ 437ii 12 " 6x7! 4372. ... ii 2 Each ... $i 6 10 24 15 3 25 3^ inch diam. 30- 4373. Centre Slab, 5 divisions, 2§x6 inch, each Price. $ 75 50 60 60 70 80 1 00 1 20 1 50 1 75 1 35 15 25 30 35 45 25 70 20 35 45 55 70 1 00 1 20 25 LEAD PENCILS. GRAPHITE, PLUMBAGO, BLACK LEAD. Eighty-one Highest Prizes for Unrivalled Products. Silver Medal, Paris, 1867 ; Medal for Progress, Vienna, 1873 ; Medal for Merit, Vienna, 1873 ; Highest Award, Centennial, 1876; Five Medals, American Institute, 1878; Two ILLUSTRATED CATALOGUE. 77 Gold Medals, Paris, 1878. Dixon's fine American Graphite Pencils, five regular grades of hardness of leads, in both round and hexagon shape and beautifully finished in different styles, black, maroon and natural color, and new "satin finish" style, so popular that it is now being imitated by the other makers. S. — Soft. For heavy shading in sketch drawing, or for any use in which a large black mark is desired. S. M. — Soft Medium. The most popular goods we make. This grade is used for the pocket, or for general drawing and sketching, and is wonderfully smooth. For all ordinary office use it has no equal. M. — Medium. For professional and desk work, and all finer uses where a harder lead than the S. M. is wanted ; for accountants, stenographers, draughts- men, physicians, etc.; for memorandum books, it is just right; for drawing on paper not very smooth, it is exactly right. H. — HARD. A hard but smooth lead, suitable for ledger work or outline draw- ing ; for civil engineers, architects, draughtsmen, etc.; very fine lines; drawings made with this grade need not be inked for the machine shop or for building plans ; suitable for compass use. V. H. — Very Hard. For the finest lines, almost equal to engraving, but still black and smooth. Ten Grades of Leads in Artists' Pencils, in hexagon shape, and exquisitely finished in the natural color of the cedar wood only. Grade Stamps are as follows, viz.: Trade Similar Grade to the No. European Stamp of 210. V.V.S.— Very, very soft B.B.B. 211. V.S.— Very soft B.B. 212. S. — Soft B. and No. 1. 213. S.M. — Soft Medium H.B. and No. 2. 214. M.B. — Medium Black F.. 215. M. — Medium H. and No. 3. 216. M.H.— Medium Hard H.H. 217. H.— Hard H. H.H. and No. 4. 218. V.H.— Very hard H.H. H.H. and No. 5. 219. V.V.H.— Very, very hard H.H. H.H. H.H. Price per doz. Round Shape, black finish, standard style $ 50 Hexagon " maroon " " 60 Dixon's A. G., plain " Round 30 " " " " Hexagon 4° Lumber Pencils, all lead, paper cover or Japanned 75 Dixon's Professional Pencils, round, 5 grades. . . 30 " " " hexagon, " 4° Artists' Pencils I OO Compass, School and Gem Pocket Pencils 50 Etc., Etc., Etc. Send a postage stamp for circular. Methodical Text-Book to Round Writing by F. Soennecken, published by Keuffel & Esser, New York, including an assortment of 25 single and double pointed pens, each $1 40, post-paid $1 50 78 A. & A. F. SPITZLI'S Methodical Text-Book, without pens i 10, post-paid, $115 Methodical Text-Book, bound in cloth, with 25 pens .... 2 00, " 2 18 Copy-Book without instructions (School Edition), including an assortment of 25 pens, each 90, post-paid 1 00 Copy-Book without pens 60, " 64 Pens, single pointed. Nos. 1 2 2\ 3 3i 4 5 6 , BBB BB B M MF F FF FFF per gross $1 10, post-paid $1 25 " i " 35. " 4i Pens, double pointed, Nos. 10 20 30 B M F per ± gross $1 00, post-paid $1 06 per dozen 50, " 53 Every gross or ^ gross box contains pens of one number only. Sample assortment Single and Double pointed pens, 25 in a box, 35, " 41 Ink-holder to be applied to Single and Double Pens, specially for writing with India Ink and Autograph Ink, per box of 6 30 cts., each 10 Round Writing Instruments, complete with 9 pens, each %l 50, postage paid $1 60 Minute pens only. doz. 75, each 10 With this Instrument, 2 or 3 parallel lines can be made with one movement ; it is used exactly in the same manner as the common single and double round writing pens. The accompanying 9 minute pens allow to produce 144 different double and 504 different triple lines, by simply changing the pens in the different places in the holder. Parcel-Pens, in 4 different widths, for bold and large lettering. Nos. 131 133 135 137 F M B BB _L£ inch wide, each, so 25 Nos. 203 204 205 103 104 105 BBB BB B ILLUSTRATED CATALOGUE. 79 FLUENT WRITING PENS. 206 207 208 square pointed 106 107 108 oblique pointed M F FF per gross $1 10, postage paid $1 25 " i " 35- " 41 Sample box, containing 25 pens, assorted 25, " 31 Fen-holders for round writing and fluent writing pens, each 10 CEDAR BOXES WITH ROUND WRITING PENS. Containing 11 pen-holders and pens, assorted, each 2 00 RULED PAPER IN SHEETS. Six patterns for round writing, each These sheets are placed under plain paper to serve as lines to write on. RUBBER. A. W. Faber's Artist's Rubber, in Cakes, each 10 to 50 Natural or Virgin Rubber, in Cakes, each 20 to 50 " Black Rubber, in Cakes, each 10 to 50 " Ink Eraser, in Cakes, each , 6 Ink Eraser, in Cakes, large, each 10 to 20 Ink and Pencil Eraser in Cakes, each 15 Ink and Pencil Eraser in Cakes, Mammoth, each 25 Green's Ink Eraser, each . . . . : 6 Velvet Rubber, oblong, each 10 to 50 SPONGE RUBBER. For Cleaning Drawings. 0. Small Cakes, about ixlxl inch 10 2. Medium Size, Rubber Back (Glove Cleaner), 2jxifxf inch 25 3. Large Size, 4x2x1 inch 60 4. Mammoth Size, 6x4x1 inch 1 80 1. Pencil Pointer, 2x2£ inch, each IO 2. " 2^x4 " 15 3- " liM " I2 Arkansas Oil Stones, each from 25 to 1 50 Arkansas Oil Deskstones on wood, each 75 80 A. & A. F. SPITZLI'S Arkansas Oil Stones, in case with cover, 345678 inch each $1 00 1 50 2 00 2 25 2 50 2 80 Mouthglue, per dozen 40 Mouthglue, fine perfumed, per dozen 80 Mucilage, in glass bottles with brush, each 25 A. W. FABER'S PENCILS. No. Price. 4400. Hexagon, very best Siberian, No. 2 B. to 6 H., per doz. $1 25 4401. " " Drawing, Nos. 1-5 " 75 4402. Black round, best, " 1-4 " 60 4403. Yellow polished, round, " 4 B. to 4 H " 60 4404. Hexagon, for Mathematical Instruments, No. 4 " 70 4405. Round, " " .' " 60 4406. Ivory Pocket Pencil, with movable lead, 2f inch, each 50 4407- " 3i " 60 4408. " " 3i " 75 4409. Artist Pencil with Siberian Lead, double pointed, each 35 4410. " " " 25 441 1. " best " ■ " 20 4412. Leads for Artist Pencils, Siberian, 6 in box, per box 65 4413- " " best, " " 35 4414. Hexagon carmine and blue pencils, per doz 125 5415. Round " " " 1 00 4416. ' ' blue, per doz 75 4416+. A. W. Faber's Wax Crayons, per doz., $1.25 ; each 12 No. 1, White ; 2, Yellow ; 13, Dark Blue; 30, Sienna ; 38, Vermilion ; 54, Purple ; 62, Orange ; 63, Light Green ; 69, Dark Green ; 75, Carmine ; S8, Light Blue ; Black. A. W. Faber's Wax Crayons in boxes, assorted colors : Nos 6 12 18 24 36 48 Each $ 80 $1 50 S2 00 $2 50 $3 50 #4 50 4417. A. W. Faber's Pencil Cases, with 5 Siberian Lead Pencils, each $1 00 44i8. " 7 " " " 1 25 4419 4420 4421 4422 4423 4424 4425 4426 4427 4428 4429 4430 4431 " 10 " " 1 75 " 5 " Rubber and Knife each 1 25 " 5 Yellow round " each 1 60 " 7 " " " 75 " 10 " " " 85 " 5 Rubber and Knife, each 1 00 Red Chalk, in cedar, for marking stakes, doz 75 " in sticks, covered with paper, " 25 " SO Black Conte Crayons in Wood, No. 1-2, " 60 " 3 " ' 9° Velours, very soft, doz 1 25 White " " doz Co ILLUSTRATED CATALOGUE. Si No. 4432. Black Conte Crayons, square, No. 1, 2, 3, doz. in a box, per doz 4433- " round, " 1, 2, 3, " " 4434- " " polished " " . 4435. White " square, No. 1, 2, 3, " " 4436 " round, " 1, 2 " " . Small. I 75 30 4437. Conte Crayon Sauce, in tin foil per doz. 4437-2. " " common, not in tin foil. .. . " 4438. Paper Stumps, assorted, doz 4439. Chamois Leather Stumps, assorted, doz 4439-1. White Kid " " " 4439-2. Cork " " " 4439~3- Minute " for very delicate work, gray paper, doz rose or white, " 4439-4. Rubber Stumps, wood centre, No. 1, 4^ inch, each 2, 5i " " 4439-5. Rubber Stamps, all Rubber, Prick. 20 40 60 20 40 Large. $1 20 50 35 I 25 I 50 I 50 IO 12 15 25 35 12 10 3, 5t " " 10, 4 " " 20, 3i ,; " 30, 2| " " 8 4440. Crayon Holder, Brass, 5 inch and 6 inch each, 8 4440-2. " " 5^ " " 6 4440-3. " " 7 " extra large and heavy " 20 4441. " German Silver, 5 inch " 25 4442. " Brass, Ebony Handle, 5 inch " 10 4443- " " " " fine " J 5 4444. " German Silver, Ebony Handle, 5 inch, fine. . . " 25 4445. Brass, double wooden centre, 7 inch " 25 4446. German Silver, double wooden centre, 7 inch, " 40 4446-1. Crayon, Pencil and Charcoal Holder combined " 35 4446-2. Crayons, round, for above, 6 in tin box, No. I or 2, each box. ... 25 CHARCOAL. 4447. Charcoal, 50 sticks in a box -.each, $ 4447-2. " " extra large " 4448. " " fine.... " 4449. " " extra fine " 4449-I. " Rouget's Patent, assorted according to the different degrees of hardness, Nos. 1, 2, 3, 25 sticks in a rJox " 4449-2. Crayon Pointer, a very useful instrument to point Charcoal and Crayons, each 4449-3. Burnt Rubber, small, each 4449-4- lar ge. " (A prepared Rubber indispensable for Drawing in Crayon.) 4449-5. Rouget's Fixative, a preparation to make Crayon Drawings in- delible, bottle 6 25 40 40 60 40 20 6 TO 50 82 A. & A. F. SPITZLI'S . No. Trice. 4449-7. Crayon Box, polished, with lock and key, fitted with Crayons, Crayon-holders, Charcoal, Rubber, Stumps, Pencils, etc., etc., each $1 65 4449-8. do. do. do., finer and more complete, each 2 65 (Larger Crayon Boxes fitted up to order.) STEEL PENS. 4450. Lithographic Crow Quill, Joseph Gillot's, doz $ 75 4450J. Superfine 'long shoulder Crow Quill, " " .... 1 00 4451. Lithographic Pen, " " ... 75 4452. Mapping " " " 75 4453. " or Ladies' Pen, No. 170, " " 15 4454. Lettering Pen, " 303, " " 20 " 404, " " 15 4455. Crow Quill Pen, with holder, French, " 50 4456. " " " " English, " 50 4457. Gold Lettering Pens, wooden holder, " 2 00 4458. Keuffel & Esser's Drawing and Lettering Pens, " 60 The pens 4458 are specially made for draughtsmen, to be used for drawing and lettering on drawing paper which has a more or less coarse surface. These pens, having longer nibs and less sharp points than most of those hereto- fore in use, possess a great elasticity and allow to draw or letter more rapidly, without annoying the draughtsmen by continuously scratching or catching the nibs of the pens in the grain of the paper. Draughtsmen will prefer those pens to Crow Quill, Mapping or Lithographic Pens, all of which are intended principally for drawing on stone. Send for separate lists of A. W. Faber's Demestic Pencils, A. W. Faber's Gold Pens and Pencil Cases, A. W. Faber's Rubber Goods, E. Faber's Penholders, E. Faber's Miscellaneous Stationers' Articles, any of which we will mail on receipt of postage. NO. 1, CHEMICAL CABINET. Contains 60 Chemical Tests and Apparatus. Without strong acids or other dangerous articles. They are perfectly safe in the hand of youth, and are admira- bly adapted as presents. Prices : No. 1, Cedar Case, with Book of Experiments $ 3 50 No. 2, polished Black Walnut Case with lock, with Book of Experiments, 4 50 CONTENTS. Acetate of Lead, Alum, Benzoic Acid, Bichromate of Potash, Biborate of Soda, Carbonate of Magnesia, Camphor, Caustic Potash, Carbonate of Potash, Charcoal, Chloride of Cobalt, Chlorate of Potash, Fluate of Lime, Gum Arabic, Isinglass, Litharge, Logwood, Lycopodium, Muriate of Ammonia, Nitrate of Baryta, Nitrate ILLUSTRATED CATALOGUE. 83 of Copper, Nitrate of Mercury, Nitrate of Potash, Nitrate of Silver, Nitrate of Strontian, Oxalate of Ammonia, Oxide of Manganese, Phosphorized Oil, Phos- phuret of Lime, Prussiate of Potash, Red Lead, Resin, Steel Filings, Stourbridge Clay, Sulphate of Copper, Sulphate of Iron, Sulphate of Soda, Sulphur, Sulphuret of Antimony, Tartaric Acid, Tincture of Galls, Tincture of Litmus. APPARATUS. Glass Mortar and Pestle, Glass Spirit Lamp, Cotton Wick, Metallic Capsule, Tri- angular Crucible, Conical Test Glass, Tripod Stand, Glass Stirring .Rod, Glass Tube, Test Tube, Glass Funnel, Filtering Paper, Litmus Paper, Tumeric Paper, Tin Foil. Metallic Zinc, Sheet Zinc, French Chalk. NO, 2, LABORATORY CABINET. PRICE, WITH BOOK, $6 OO. Contains 54 Chemical preparations, and 30 pieces of Apparatus. Free from danger 6 00 CONTENTS. Acetate of Lead, Alum, Antimony, Benzoic Acid, Biborate of Soda, Bichromate of Potash, Boracic Acid, Carbonate of Ammonia, Carbonate of Lime, Carbonate of Magnesia, Carbonate of Potash, Carbonate of Soda, Camphor, Caustic Potash, Chloride of Ammonium, Chloride of Lime, Chloride of Cobalt, Chlorate of Potash, Charcoal, Filiate of Lime, Galena, Granulated Zinc, Gum Arabic, Isinglass, Iron Filings, Litharge, Litmus, Logwood, Lycopodium, Nitrate of Barytes, Nitrate of Copper, Nitrate of Mercury, Nitrate of Silver, Nitrate of Strontian, Oxalate of Ammonia, Oxide of Lead, Oxide of Manganese, Phosphate of Soda, Phosphorized Oil, Phosphuret of Lime, Prussiate of Potash, Staurbridge Clay, Sulphuret of An- timony, Sulphate of Copper, Sulphate of Iron. Sulphate of Magnesia, Sulphate of Soda, Sulphur, Sulphuret of Iron, Tartaric Acid, Tincture of Litmus, Tincture of Galls, Test Papers. APPARATUS, ETC. Glass Spirit Lamp, Glass Mortar and Pestle, Triangular Crucible, Conical Test Glass. Ribbed Glass Funnel, Packet of Filters, Tripod Stand, Two Test Tubes, Test Tube-holder, Test Tube-cleaner. Tin Capsule, Porcelain Evaporating Basin, Bohemian Flask, Pipette, 3 Glass Tubes. 2 Glass Stirrers, Litmus Paper, Tumeric Paper, Slip of Copper, Slip of Zinc, Tin Foil, Two Glass Slips for Testing, Iron Rod for Testing, Copper Rod for Testing, Bibulous Paper. NO, 3, STUDENT'S CHEMICAL CABINET. Contains 36 boxes and 12 bottles filled with Chemicals, and a lan;e assort- ment of Apparatus of practically useful size. Arranged in pol- ished black walnut cabinet, with lock 8 00 84 A. & A. F. SPITZLI'S CHEMICALS. Alum, Ammonia Carbonate, Ammonia Caustic, Chloride, Oxalate, Antimony Sul- phide, Barium Chloride, Baryta Nitrate, Benzoic Acid, Boracic Acid, Charcoal, Cobalt Chloride, Copper Nitrate, Copper Sulphate, Galls Tincture, Iron Filings, Potash Bichromate, Iron Sulphate, Iron Sulphide, Lead Acetate, Lime Carbonate, Lime Chloride, Lime Fluate, Lime Phosphuret, Litharge, Litmus, Litmus Tinct- ure, Lycopodium, Magnesia Carbonate, Manganese Oxide, Phosphorus, Potash Carbonate, Potash Caustic, Potash Chlorate, Potash Prussiate, Potash Nitrate, Potash Sulphate, Silver Nitrate, Soda Biborate, Soda Carbonate, Soda Phosphate, Soda' Sulphate, Strontian Nitrate, Sulphur, Tartaric Acid, Tumeric, Zinc Granu- lated. APPARATUS. Glass Mortar and Pestle, Glass Spirit Lamp, Wick for Spirit Lamp, Evaporating Basin, 3 Test Tubes, assorted, Test Tube Cleaner, Test Tube Holder, Bohemian Flask, Bulb Boiling Tube, 2 Glass Tubes, Sheet Litmus Paper, Sheet Tumeric Paper, Sheet Bibulous Paper, Ribbed Glass Funnel, Packet of Filters for Funnel, 2 Glass Stirring Rods, Oxygen Tube Retort, Watch Glass, Tinned Sand Bath, Tinned Capsule, Cylindrical Test Glass, 3 Hessian Crucibles, Copper Rod, Iron Rod, Zinc Rod, Pipette, Retort Stand. NO. 4, STUDENT'S PORTABLE CHEMICAL CABINET, In handsome polished black walnut cabinet, containing 42 pieces of apparatus and 50 chemical preparations, in all g2 articles suitable for any text book in chemistry. Price, $14 00 CONTENTS. Retort Stand, 1 Ring; Porcelain Mortar and Pestle, No. 00 ; Glass Spirit Lamp, 1 oz.; Cotton Wick, 3 feet ; Blowpipe, Platinum Blowpipe Wire, Platinum Foil, Iron Spoon for Fusions, Albata Test Spoon, Set of 3 Beaker Glasses, Glass flask, 3 oz.; Test Tubes, 3 x $ and 4 x + inch ; Test Tubes, 4 x 1 and 5 x | inch ; Test Tubes, 3 x i inch (3); Berzelius Bulb Tube (2); Watch Glass, 2 inch ; Porcelain Capsule and handle (2), Funnel, No. 2, i£ inch ; Filters for Funnel, 2f inch (100); Funnel, No. 1, ij inch; Filters, for No. 1, i\ inch (100); Clark's Test Glass, Book of Litmus Paper, Book of Tumeric Paper, Test Metals, Fe, Cu, Zn ; Stirrers, 1 each, 3 inch and 6 inch ; Filtering Ring, 2 arms ; Straight Pipette, 6 inch ; Open Glass Tubes, \ to \ inch (4); Tube Holder with Handle ; Porcelain Crucible, No. o ; Porcelain Basin, No. o; Porcelain Cup, No. 1 ; Porcelain Cup, No. 3 ; Porcelain Cup, No. 6. FIFTY CHEMICAL PREPARATIONS. Contained in 4 stoppered £ oz. bottles, 10 corked \ oz. bottles, 14 \ oz. wooden boxes, and 22 \ oz. paper boxes, as follows : Alum, Ammonia Carbonate, Ammonia Chloride, Ammonia Oxalate, Antimony Sulphide, Barium Chloride, Boracic Acid, Bleaching Powder, Calcium Chloride, ILLUSTRATED CATALOGUE. 85 Cobalt Chloride, Cobalt Nitrate, Copper Nitrate, Copper Sulphate, Fluor Spar, Galena, Galls Tincture, Iron Pyrites, Iron Sulphate, Iron Sulphide, Lead Acetate, Lead Carbonate, Litharge, Litmus, Magnesium Carbonate, Magnesium Sulphate, Manganese Peroxide, Microcosmic Salt, Oxalic Acid, Phosphorus, Potassium Bi- chomatic, Potassium Binoxalate, Potassium Cyanide, Potassium Carbonate, Po- tassium Chlorate, Potassium Ferridcyanide, Potassium Ferrocyanide, Potassium Hydrate, Potassium Iodide, Potassium Sulphate, Silver Nitrate, Sodium Borate, Sodium Carbonate, Sodium Phosphate, Strontium Nitrate, Sulphur, Tartaric Acid, Tin Granulated, Tin Protochloride, Zinc Granulated. NO. 5, STUDENT'S PORTABLE CHEMICAL CABINET. In handsome polished mahogany cabinet, containing over 72 pieces of chemical ap- paratus of a good working size, for manipulating in the gases, etc., and 60 chemical preparations. This set is suitable for performing the the experiments in any text book. Price, $22 00. Retort Stand, 3 Rings ; Porcelain Mortar, No. 00 ; Glass Spirit Lamp, 1 oz.; Cot- ton Wick, 1 yard ; Blowpipe, Platinum Blowpipe Wire, Platinum Blowpipe Foil, Albata Test Spoon, Iron Spoon for Fusions, Iron Tongs with Spoon, Set of 3 Beaker Glasses, Glass flasks, I, 2 and 3 oz.; Bulb Tube, large size (2); Gas bottle, funnel and tube, small ; Cork and Jet for ditto ; Test Tubes, 3 x £ inch (2); Test Tubes, 4 x $ inch (3); Test Tubes, 6x1 inch (1); Test Tubes, 3 x -J inch (6); Fold- ing Frame for 6 tubes, Glass Funnel No. 1, i^ inch ; Glass Funnel No. 2, i^ inch ; Filters for No. 1 Funnel (100); Filters for No. 2 Funnel (100); Filter Ring, 2 arms; Clark's Test Glass ; Box of six Test Paper Books, Porcelain Test Plates, Nos. 8 and 9 (2); Stirrers, 2 each, 3 and 6 inch ; Open Tubes, •§ and \ inch (2); Test metals; Cu, Fe, Zn; Test Tube Holder, Straight Pipette, 6 in. ; Test Tube Brush; Glass Retort, 2 oz.; Glass Receiver, 2 oz.; Watch Glasses, 2 in. (2); Porcelain Basin, No. 00; Porcelain Basin, No. 1, Porcelain Cup, No. 12 (2); Porcelain Cup, No. 10; Porcelain Cup, No. 1; Porcelain Cup, No. 2; Porcelain Crucible, No. 000; Porcelain Crucible, No. 00 ; Beehive Shelf, 4 inch ; Graduated measure, 4 oz.; Alum, Am- monia Caustic, Ammonia Carbonate, Ammonia Chloride, Ammonia Oxalate, Anti- mony Sulphide, Arsenious Acid, Barium Chloride, Barium Chloride Solution, Ba- rium Nitrate, Boracic Acid, Benzoic Acid, Calcium Chloride Solution ; Cobalt Ni- trate Solution, Cobalt Ore. Copper Sulphate, Copper turnings, Fluor Spar, Galena, Iron Pyrites, Iron Sulphate, Iron Snlphide, Lead Acetate, Lead Acetate Solution, Lead Carbonate, Lead Nitrate Solution, Litharge, Litmus, Magnesium Carbonate, Magnesium Sulphate, Manganese Peroxide, Mercurous Chloride, Microcosmic Salt, Oxalic Acid, Phosphorus, Platinum Bichloride Solution, Potassium Bichromate, Potassium Binoxalate, Potassium Bitartrate, Potassium Chlorate, Potassium Cya- nide, Potassium Ferncyanide, Potassium Ferrocyanide, Potassium Ferricyanide So- lution, Potassium Hydrate, Potassium Iodide, Potassium Nitrate, Potassium Sul- phate, Realgar, Silver Nitrate Solution, Sodium Borate, Sodium Carbonate, Sodium Phosphate, Strontium Chloride, Strontium Nitrate, Sulphur, Tartaric Acid, Tin Chloride, Tin Granulated, Zinc Granulated. 86 A. & A. F. SPITZLI'S - A SET OF APPARATUS AND CHEMICALS, Intended to illustrate a first course of chemical experiments, as explained in Chem- ical Recreations by J. J. Griffin. The apparatus in this set are intended to illus- trate elementary chemistry, the qualitive analysis of salts, and centigrade testing. This is the set for teachers in schools ; price, $30 00. Griffin's Chemical Recreations. — Part I. Price $i 00. SET A-FOR INDICATING TESTS. Porcelain Mortar, No. 00 ; Albata Test Spoons, Flask, 2 oz.; Pipette, 25 Septems ; Glass Spirit Lamp, Cotton Wick for Lamp, Brass Tongs to trim Lamp, Furnace Cylinder, Trellis Top for Furnace, Box with 100 Filters, 2f inch ; Filter Ring, Water Bottle, Glass Funnel, if inch ; Support for Funnel, Pipettes, 5 inch (2); Test Glasses, Conical (8); Stirrers, 3 inch (8); Boiling Tubes, 6x1 inch (2); Handle for Hot Tubes, Book of Red Litmus, Bock of Blue Litmus, Tubes for S. H. Gas, Pipette Bottles, 1 oz. size (9); Bottles with Stoppers, 1 oz. (2). SET B-FOR CONFIRMING TESTS. Porcelain Cup, 1 inch ; Retort Stand, Blowpipe, Blowpipe Lamp and Stand, Platinum Wires (2), Platinum Foils (2), Platinum Tongs, Thin Copper Wire, Char- coal Pastiles (36), Crucibles for Pastiles (2), Wire Supports for Pastiles (2), Ham- mer, Anvil, Closed Tubes, 2 x \ inch (3); Box Test Papers, Support for Sublimates, Borax in a Box, Microcosmic Salt in a Box, Soda Carbonate in a Box, Cobalt Ni- trate, 2 oz. bottle ; Stoppered Bottles to Contain Test Solutions, 2 oz. size, labelled but empty (8); Corked Bottles, with Wide Mouths, to Contain Dry Tests, r oz. size, labelled, but empty (7). SET C-REAGENTS. INDICATING TESTS. Sodium Carbonate, Ammonia, Ammonia Molybdate, Sulphuric Acid, Concent. Hydrochloric Acid, Potassium Hydrate, Potassium Ferricyanide, Barium Nitrate, Silver Nitrate, Calcium Chloride, Nitric Acid, Lead Nitrate. CONFIRMING TESTS. Potassium Chromate, Potassium Bichromate, Potassium Ferrocyanide. Potassium Antimoniate, Calcium Sulphate, Platinum Chloride, 50, \ oz.; Gold Chloride, \ oz.; Gold Test in Dry State, Calcium Sulphide, Potassium Bisulphate, Ferrous Sul- phate, Manganese Peroxide, Stannous Chloride, Copper Sulphate, Lead Acetate, Magnesium Sulphate, Sodium Chloride. The Complete Sets A, B and C, Price $30 00. A SET OF APPARATUS AND CHEMICALS, To illustrate Prof. Roscoe's Primer of Chemistry, which explains the fundamental principles in an easy and pleasant manner, well illustrated. Price of set complete, $35 00. Exp. 1. Taper with wire holder. Exp. 3. Glass tube containing a taper, with U tube for holding the caustic soda, and rubber tubing to connect with the aspirator. ILLUSTRATED CATALOGUE. 87 Pair of hand scales with brass pans and weights from 2 oz. downward, in oak box. Exp. 5. A 2 oz. glass flask, iron tripod stand, Bunsen's burner, with one yard of rubber tubing. (This will be replaced by a spirit lamp and 1 pint of wood alcohol when desired.) Exp. 6. A bell jar ; capsule to contain the phosphorus. Exp. 12. Apparatus for decomposing water by electricity, with two collecting tubes and wire to suspend them. A 4-cell Bunsen's battery, with wires. Exp. 14. Glass mortar and pestle, gas esprouvette. Exp. 15. Flask etc., for generating hydrogen, stoneware pneumatic trough, with beehive shelf. Four, wide mouthed gas collecting bottles, pint size. Three stoneware gas trays. Exp. 20. A pint flask, wash bottle, two U shaped calcium chloride tubes and a hard glass tube to contain the copper oxide. Exp. 21. Two 8 oz. stoppered glass retorts, a retort stand, with three rings and a clamp for test tubes, etc. Exp. 23. A 16 oz. porcelain evaporating dish and a 4 oz. evaporating dish. Exp. 25. Two 3 inch glass funnels, 100 filter papers. Exp. 31. A horseshoe magnet. Exp. 32. A palette knife. Exp. 37. A piece of iron wire gauze, 6 inch square. Exp. 42. Iron tray or sand bath. Exp. 44. One dozen 5 inch test tubes, test tube holder, test tube stand for twelve tubes. One blowpipe, two files (round and triangular). Half a pound of glass tubing, 2 dozen spare corks. Four lbs. Sulphuric Acid, 3 lbs. Nitric Acid, 2 lbs. Hydrochloric Acid, 1 pint Lime Water, 4 oz. Ammonia Solution, 4 oz. Caustic Potash, 4 oz. Sodium Carbon- ate, 4 oz. Potassium Chromate, 4 oz. Potassium Ferrocyanide, 4 oz. Silver Nitrate, 4 oz. Litmus, 4 oz. Indigo, 8 oz. Calcium Chloride, 8 oz. Marble, 8 oz. Iron Filings, 4 oz. Lime, 4 oz. Gypsum, 4 oz. Stourbridge Clay, 4 oz. Bleaching Powder, 1 lb. Manganese Dioxide, 4 oz. Soda Crystals, 4 oz. Alum, 4 oz. Sulphur Roll, 4 oz. Sulphur flour, 4 oz. Potassium Nitrate, 2 oz. Zinc, 2 oz. Copper Turnings, 2 oz. Copper Oxide, 2 oz. Copper Sulphate, 2 oz. Antimony, 2 oz. Mercury, 2 oz. Lead Acetate, 2 oz. Castor Oil, 2 oz. Caustic Soda (solid), 1 oz. Sodium Carbonate Anhy- drous. 1 oz. Phosphorus Yellow, $ oz. Phosphorus Red, i oz. Tin Oxide, -J oz. Mer- cury Oxide, 1 dram Potassium, 1 dram Sodium, 6 leaves Gold Leaf, $ yard Magne- sium Ribbon, 1 Book Litmus Paper, 1 piece Charcoal. Forty-three bottles (various) to contain the above chemicals and preparations. A. & A. F. SPITZLI'S SCALES PRICE LIST. 5001. Druggists' Scales, with Wood Box, Marble Top and Brass Pans. Price. No. 1. 26 inch Box, 12 inch Pans, 30 pounds capacity.. ,. . . . $39 00 " 2. 20 " g " 20 28 00 " 3. 18 " 8 " 10 " 23 00 " 4. 15 " 7 " 4 " 2000 5002. Druggists' Scales, with Marble Top, Metallic Sides, Bronze Edges, Brass Pans. Price. No. 1. io£ inch Pans, 44 pounds capacity $50 00 " 2. gi " 33 43 50 " 3. 7$ " 18 " 3200 " 4. 6J " 4i " 2300 " 5- Si " 2i 2000 5003 Brass Weights in Block, Avoirdupois. With Open Block Capacity, 4 pounds to T 'g ounce Price, $16 00 2 " T V " " 10 50 1 " tV " " 7 00 Single Weights. Separate from Full Sets. Capacity 7*5- ounce Price each, " i " With Cov'd Block. $18 OO 12 OO 8 00 i " • * " • 1 " 2 " . 4 " • 8 " 1 pound. 2 " 4 " 25 25 35 50 65 75 85 1 15 1 5o 2 50 4 00 7 5° 5004. Brass Weights in Block, Troy. With Capacity. Open Block. 500 ounces down Price, $68 00 300 200 100 50 30 20 10 5 50 00 36 OO 25 OO 20 OO 15 00 12 OO 10 00 8 00 With Cov'd Block. f 72 OO 54 00 40 00 29 OO 23 00 18 OO 15 00 12 OO 10 00 5005. Bank Scale, with Metal Base. No. I. Capacity 100 oz Price, without weights, $140 00 " 2. " 300 oz " " " 33000 ILLUSTRATED CATALOGUE. 89 5006. Bank Scale, with Brass Beam, Brass Column, Mounted on Wood Box Capacity 100 ounces Price, without weights, $85 00 5007. Brass Cup Weights, Troy. Capacity 64 oz. down Price, $10 00 " 32 " " 675 10 4 00 8 " 250 4 " " 120 85 70 " 2 " " " 1 " " I " •• " 60 Sealed Troy Pennyweights Per set, 40 " Scruples and Drachms " 40 " Grain Weights " 30 5008. Jewelers' and Brokers' Scales, very finely adjusted. Diam. Length Length Description. No. of Pans, of Beam. of Box. Weights. Price Brass Column, Brass"] o. 4 in. 7 in. 12 in. 8 oz $13 50 Beam, Brass Pans | 1. 4i " 8 " 13 £ " 8 " 15 50 and Chains, and | 2. 5 " 9 " 15 " 16 " 18 00 Wood Box with ^3. 6 " 10 " 17^ " 32 " 23 00 Drawer, sealed Troy | 4. 7^ " 12 " 20 " 32 " 27 50 Cup Weights, dwts. | 5. S " 15 " 24 " 64 " 35 50 and grns. complete, J 6. io£ " 20 " 33 " 128 " 77 00 5009. French Gold Scales, Mounted on Box. Length of Beam. Length of Box. Price. No. 24 Si inches. g£ inches. $5 50 "32 7i " 12$ " 7 70 "35 8 4 " T 4 " 9 00 5012. Standard Yard Measure. Description. Without Case. With Case. All Brass $1800 $2200 5013. Prescription Scale with Glass Case and Glass Bottom. Length of Beam. Price. No. 1 12 inches $ 35 °° " 2 10 " 3300 '« 3 8 " 3200 5014. Sampling Scale, length of beam 6 inches 7 °° 5015. Prescription Scales. Plain Top — all Brass. Length of Beam. Price. No. 3 8 inches I 9 00 « 4... 7 " 8 °° •• 6 6 " 7 °° 5016. Prescription Scales, with Lever, Mounted on Marble Slab. Length of Beam. Brass. Glass Case. N 0- I# ." 12 inches price, $16 50 $30 00 .. 2 10 " " 1400 2700 ,, „ 8 " " II OO 22 OO 9 o A. & A. F. SPITZLI'S 5017. Prescription Scales with Lever, Mounted on Box with Marble Slab. Length of Beam. Brass. Silver-plated. No. I 12 inches price, $22 00 $28 00 " 2 IO " " l6 50 20 OO " 3 8 " " 13 50 15 50 5018. Yarn Scales for Runs ) 5018*. Yarn Scales for Worsted Numbers >- $8 00 to $45 00 5018**. Yarn Scales for Cotton Numbers. . . ) These Scales have one shell and beam weighted to show the size of yarn by the number of yards required to balance it. 5021. Weights in sets for woolen, worsted and cotton yarn, per set each • .brass, $2 00; nickle-plated, $3 50 These weights may be used with any fine balance scales. 5022. Weights to determine the weight of a yard of goods from a small sample. Full instructions given with the weights. .$5 00 to -ft 10 00 FOLDING EASELS FOR DESIGNS TO BE COPIED, MUSIC, BOOKS, ETC. Polished Folding Easel, 14 inch long, 7 inch high, folded only 7 inch long, li inch square, each $ 50 Polished Folding Easel, 18 inch long, 9 inch high, folded only 9 inch long, if inch squate, each 60 Polished Folding Easel, 18 inch long, 9 inch high without top, only 9 inch long, if x i^ inch square, each 75 Fine Polished Folding Easel, 18 inch long x 9 inch high without top, folded only 9 inch long, if x 1^ inch square, each 1 00 do. do. fine of Rosewood, do. do. do. each, ... 175 PORT FOLIOS. Port Folios, School. Size 11 x 16 14x18 16x22 19x25 Each $ 60 .ft 80 $1 00 $1 25 Port Folios, Cloth Back and Corners. Size 11 x 16 14x18 16x22 19x25 Each $ 80 $1 10 $1 40 $2 00 Port Folios, Fine Strongest Board, Leather Back and Corners. Size 14 x 18 16x22 19x25 22 x 30 26 x 36 Each $2 00 $2 50 $3 00 $4 50 $6 00 DESIGN PAPER. To furnish this specialty in all its varieties, at prices to defy competition, has cost us a deal of pains, but our contracts for paper and ruling are now such that we can furnish design paper cheaper than any one else without doing ourselves an 22 x 30 -ft I 75 22 x 30 ft 2 50 32 x 42 ft7 50 Illustrated catalogue. 91 injustice or resorting to the tricks of trade so common in this particular class of goods. Our prices are lower than those of any other reliable house that we know of. This fact, however, is not due to the desire to cut trade prices, but because we have good reason to believe that when our papers have been tried, individual orders will be larger than heretofore, when almost every purchase was a new ex- periment. For single sheets or broken quires we are obliged to charge New York market prices — 10 to 20 cents per sheet of ruled paper, 15 to 25 cents per sheet of printed paper. Printed paper can be furnished by the yard. Prices of design paper in the roll are not included in the price list, as that form meets but little favor. Pads, on the contrary, are not put in, because we make those up to order at a very little advance upon the price of loose paper, it being a process always in hand and quickly done. Any designer who uses slips of any particular size will find the pads most convenient and cheapest, because they allow little waste if proper sizes are used. In ordering new kinds and styles of paper, a hand-ruled sample should be inclosed. On large orders, two colors of ink may be arranged in various ways without extra cost for ruling. Additional colors cause extra expense, and changes in small orders are very expensive. Printed papers can be made in more than one color only at a great cost. What are termed plaided papers in two or more colors, ruled to order : 8 blue lines, 8 red lines ; 8 blue lines, 4 red lines ; 4 blue lines, 8 red lines ; 12 blue lines, 4 red lines ; 4 blue lines, 12 red lines ; 4 blue lines, 4 red lines. Other propottions cost a little extra, according to size of order. Draft Blanks for woolen mills made to order, and furnished in loose sheets, pads or books. The latter can be made like a stub-check book. Tracing paper ruled or printed to match all our regular styles of paper ; a great convenience for copying drafts. Prices double that of common design paper. DESIGN PAPER-PRICE LIST, Size of Ri One HEAVY. n led. Ruled. side. Both sides. Ru One led. side. EXTRA HEAVY. Ruled Printed. Both sides. One side. Printed. Both sides Sheet. Per Q- Per R. Per Q- Per R. Per Q- Per R. Per Q- Per R. Per Q. Per Q. 14 x 17 •50 6.00 .60 7-50 .60 7-50 .70 8-75 4.00 4-50 l6 X 21 .60 7-50 • 70 8.75 •75 g.OO .90 IO.50 4-5° 5 00 18 x 23 •75 g.OO .90 10.50 .90 "•75 1. 00 12-75 5.00 5-5o - Above prices are for one or two colors on the ruled paper, one color on the printed. More colors increase the price on orders of less than four reams. With one color the squares are blocked oft' by heavier lines. In two colors the second color is used for blocking in a heavy line ; \ inch block may contain 2, 4 or 5 squares per block ; f inch blocks may contain 4, 5, 6, 8, 10 01 12 squares per block ; |and 1 inch blocks may contain 4, 5, 6, 8, 10, 12 or 16 squares per block. On the printed papers $ inch blocks contain 4, 5 or 8 squares per block. Samples of de- sign paper sent on receipt of postage. The above are our regular styles, but not all kept in stock. Of those not in stock, any order of not less than one quire will be promptly ruled or printed with- out extra charge. Other styles can also be furnished very promptly. 92 A. & A. F. SPITZLI'S DRAWING PAPERS IN SHEETS. Whatman's Drawing Papers. Hand-made. H.P. signifies Hot Pressed, and has a smooth surface. N. " Not Hot Pressed, and has a finely grained surface. R. " Rough, and has a coarsely grained surface. H.P. Paper is mostly used for pencil and very fine line-drawings. N. Paper is used for general purposes and water-color drawing. R. Paper for very bold drawing and sketching. Cap 13x17 inch H.P Demy 15x20 Medium 17x22 Royal 19x24 Super Royal 19x27 Imperial 22x30 Atlas 26x34 Double Elephant . . . 27x40 Antiquarian 31x53 31x53 Griffin Antiquarian. .31x53 Imperial 22x30 Double Elephant, . . .27x40 2. Whatman's Extra Thick Drawing Papers. Royal 19x24 inch N., per quire, $4 75 per sheet, 55 Imperial 22x30 " H.P. N. R. " 9 00 " 45 Double Elephant .27x40 " N. R. " 14 00 " 75 i\. Imitation Creswick Drawing Papers. Imperial 22x30 inch N., " $7 50 per sheet, 38 Whatman's Drawing Papers, "Selected Best " and " Retree," are both of the same quality, as they are made of the same material. The "Selected Best" quality are the best sheets, without imperfections. Both bear the impression : " Whatman " or " Whatman Turkey Mills." 3. Antique or Eggshell Papers, best quality. Demy 1 5x20 inch, . Medium 17x22 " Royal ....19x24 " Imperial 22x30 " H.P. N. per quire, Selected Best. $ 80 Retree or Second Quality. % 70 " I 00 85 " I 50 I 25 " I 85 I 60 " 2 40 2 OO " 3 50 3 OO " 5 00 4 50 " 6 00 5 5o " . " 30 00 18 OO per sheet, 1 75 90 N., " 3 00 R., per quire, 3 75 per sheet, 18 " " 7 50 35 4, Machine Papers, good 'quality, used in Schools for Pencil and Crayon Drawings. Cap 14x17 inch, Demy 15x20 Medium 17x22 Royal 19x24 Super Royal 19x27 Imperial 22x30 Double Elephant. . .27x40 per quire, % 80 " I IO " 1 40 " 2 25 mcil and Crayon per quire, 40 60 75 r 00 1 20 1 50 2 50 ILLUSTRATED CATALOGUE. 93 5. J. D. Harding's Papers, for Water Color Sketching. Imperial 22x30 inch, per quire, $4 OO " extra thick, 22x30 " " S 00 6. English Tinted Crayon Papers. Imperial 22x30 inch, 12 different tints per quire, *3 00 Double Elephant. .. 27x40 " 6 " " " 4 50 7. German Tinted Crayon Papers, Rough Grain, 12 different tints. Royal 18^x24$ inch per quire, $ I 60 8. French Tinted Crayon Papers, Slight Grain, 12 different tints. Royal 19x25 inch per quire, $125 9. French Tinted Charcoal Papers, 12 different tints. Royal 19x25 inch per quire, 75 10. English White Bristol Boards, Smooth Surface. 2 Sheets. 3 Sheets. 4 Sheets. Cap I2fxi6i inch perdoz., $ 65 $100 $135 Demy 14^x18$ " " Medium i6$x2of " " Royal 18 x22$ " " 11. French White Bristol Boards, Slight Grain. Cap I2£xi6$ inch per doz. Demy I5x£i9$ " Medium i6$x2of " " Royal 19 x24f " " Imperial 2i|x28 " " Colombier 24 x34$ " Extra fine, 4 sheets Double Elephant. . .28fx4i-J " 12. French Tinted Bristol Boards, thin, 12 different tints. Royal 19x24$ inch per doz., $1 25 13. French Tinted Bristol Boards, thick, 12 different tints. Royal 19x24$ inch per doz., $2 25 14. Bond Papers, for Tracings, very tough. 16 x 21. Per 100 sheets $3 25 Per quire I 10 15. English Parchment, best quality. 14 x 18 16 x 20 18 x 24 2i| x 29$ 23 x 31 inch. Per dozen $550 $720 $900 $1300 $1400 Per sheet 50 7 C 9° 1 3« 1 4° (23 x 31 inch is the size for English Patent Drawings and Specifications.) 15$. English Government Patent Preamkles, Legal Blanks. Printed on Parchment eacn > $1 5° " Paper " r 5 I 00 1 50 1 80 1 35 1 80 2 50 1 75 2 60 3 50 65 80 1 00 1 00 1 30 1 65 1 25 1 50 1 90 1 50 2 00 2 50 1 75 2 25 Per dozen. . $ 7 00 2 75 Per sheet. $ 70 10 00 I OO ig x 24. 19 x 30, $4 00 $5 00 1 20 1 40 94 A. & A. F. SPITZLI'S 16. Gelatin or Glass Paper. Thin. Medium. Thick. 13x19 per sheet, $ 30 $ 35 $ 45 17. Transfer Papers, Blue, Red, Black and Black-lead. 11^ x i8£ inch per doz., $1 50 Per sheet, $ 15 18. White Mounting Boards. 22 x 2S inch,' according to thickness. No. 1. No. 2. No. 3. No. 4. Per sheet $ 10 $ 12 I 15 $ 20 19. Chagrin Boards, for Passepartouts, white and tinted. 22 x 28 inch per sheet, $ 15 20. Chagrin Papers, for Passepartouts, white and tinted. 22 x 28 inch per sheet, $ 10 DRAWING PAPERS CONTINUOUS IN ROLLS. The four different qualities of white Roll Drawing Paper described below answer fully what Architects, Engineers and Draughtsmen may require. By ordering the papers according to the description given, customers will not fail to receive ex- actly what suits their purpose. 31. A very tough and pliable paper of a yellowish white hue, matchless for work- ing drawings used out-of-doors or in the workshop, where drawings are under continuous rough handling. This paper has a slightly grained surface similar to Whatman's "not pressed ;" it takes color well and stands erasing to the greatest extent. 33. An almost pure white paper of good quality with slightly grained surface, suit- able for work in Ink, Color, Pencil or Crayon. It is used for general office- work, preliminary drawings, and to a great extent for school purposes. This paper is generally known under the name of "German Drawing Paper," but is of far better quality than most of those papers imported to this country. Our paper No. 4 is the same article in sheets. 36-37. Good, well sized and tough papers of a yellowish white tint, suitable for fine drawings ; it has a grain similar to Whatman's "not pressed," but is some- what smoother. It will take ink and color perfectly well. 38 to 41. Paragon. These papers, of which Keuffel & Esser have exclusive con- trol in this country, were introduced by them within the last two years. They have, in this very short space of time, taken the lead of all drawing papers, and wherever they have been used are acknowledged to be the best. The Paragon Papers have no equal in Uniformity of Grain, Strength of Tissue, Toughness and Pliability, Sizing that will stand erasing and yet re- ceive ink and color perfectly well. In consequence of the marvelous success of these papers, paper of similar appearance is offered and sold as " Paragon ;" we therefore caution our cus- tomers against all papers offered as "Paragon" which do not show on each border the water-mark " Paragon," the duly registered trade-mark. We warrant the Paragon Paper and exchange all which does not prove as represented. ILLUSTRATED CATALOGUE. 95 38. 41. 30. 31. 33- 36. 37- 38. 39- 40. 40- 41. 43- 45- 46. 46* 39, 40, 40-2. Having a sand-grain or pebbled surface (Eggshell), are adapted to general drawing, either in lines or in wash ; they are also very desirable for water-color drawings, as the colors have a beautiful effect on the peculiar sur- face. For Elevations, Perspectives and every kind of finished drawings no better paper can be found. Has a grain like Whatman's ' not pressed" on one side ; the reverse is perfectly smooth, adapting it for drawings to be reproduced by photographic or any other process. Detail Papers, extra tough, buff color, thin, medium, thick 36, 40, 44, 48, 54 inch wide, in rolls of 75 to 100 lbs per lb. 14 to 16 According to thickness and width per yard. 10 to 25 In rolls of In rolls of 30 to 40 lbs. 10 yards. Per lb. White Roll Drawing Papers, medium 62 inch wide, " 36 " 42 " 56 " 55 55 58 42 58 " 5 s 58 " Per yard. thick, Paragon, thin rough, medium rough, ■45 .40 .40 .40 •55 •55 .50 .50 •50 .50 •50 •50 •50 Per roll. 3 75 2 OO 2 60 3 00 4 50 6 00 4 00 50 50 00 50 50 00 " thick rough, 2. " extra thick rough; " medium smooth, 58 Tinted Roll Drawing Papers, rough, 54 Tinted Drab " thick, very good for detail drawings, with slight grain, 53 inch wide, .50 4 50 Steinbach's Solar Printing and Crayon Papers, 53 inches wide, in rolls of 10, 25 and 50 yards, per yard do. do. thick .40 •25 •30 •35 •50 .70 •45 .40 •50 •75 .90 •50 •45 • 50 50 60 DRAWING PAPERS, WHITE. Mounted on Muslin in Rolls of 10 Yards. 50. The same paper as described under No. 33. 51. This is a very thick paper of good quality and clear white color. The rough paper has a grain coarser than Whatman's "not pressed," the smooth paper has a finer grain. • 524, 52, 53, 52s. The same papers as described page 94. Nos. 50. Best quality, medium thickness, 36 inch wide 42 " 54 " 51. '' thick, rough or smooth surface, 42 inch wide 54 524. Paragon, thin, rough 58 52. " medium, rough 36 " 42 5-41. Per roll. Per yard. $ 8 00 $ 90 9 OO I OO II 25 I 25 12 50 I 40 15 OO 1 75 II 50 1 25 8 50 1 00 9 50 1 10 q6 A. & A. F. SPITZLI'S Per roll. Per yard. 52. Paragon, medium, rough, 58 inch wide... $12 50 $1 40 52s. " medium, smooth 58 :l ... 12 50 1 40 53. " thick rough 58 " ... 14 00 1 60 54. Whatman's Drawing Paper, mounted, Royal 18 x 24 inch, per sheet 40 Imperial 22x30 " " 50 D'ble Elephant. 27 x 40 " " 75 Antiquarian ...31x53 " " 1 50 Large pieces for City, County or State Maps mounted to order. 55. Paper cloth, very thin, smooth, 38 inch wide, per yard 50 Paper Cloth is a new article, made of muslin, to which the paper-pulp is ap- plied. It is pliable and strong, either for drawing or printing purposes ; especially adapted for pocket maps, plans, time-tables, season tickets, etc. TRACING OR VELLUM CLOTH. Both Sides Glazed, and One Side Glazed the Other Dull, Suitable for Pencil-marks. 60. Sagar's Patent, white, in rolls of 24 yards. 18, 30, 36, 42 inch wide. Per roll, $4 25 7 50 S 25 II 50 61. Imperial, white, in rolls of 24 yards. 30, 36, , 42 inch wide. Per roll, $7 50 8 25 II 50 TRACING PAPERS IN SHEETS, 63. French Vegetable, very tough and transparent. Cap 13x17 inch, thin per quire, 1 20 Demy 15x20 " " " 1 50 Royal 18x24 " " and thick " 250 Imperial 21x27 " " " " .3 3° Double Elephant. ..27x38 " thin " 900 64. French common, 20x30 inch, medium " 15° " " 30x40 " " " 3 °° 66. Fine, glazed, very transparent and tough, 30x40 inch.. ..*... " 4 50 67. Extra Stout, very tough, suitable for machinists, 30x40 inch, " 4 50 TRACING PAPERS CONTINUOUS IN ROLLS. Per Roll. 70. French, best vegetable, very tough, 54 inch wide, in rolls of 22 yards, $5 00 71. French common, 42 inch wide, in rolls of 22 yards 3 5° 72. German, very tough and transparent, 42 inch wide, in rolls of 20 yards, 4 20 73. German, very best, very lough and transparent, 54 inch wide, in rolls of 30 yards .... 8 00 ILLUSTRATED CATALOGUE. 97 No. Price. 74. German, not prepared, for transferring, 54 inch wide, in rolls of 44 yards $6 00 76. Extra stout, very tough, suitable for machinists, 40 inch wide, in rolls of 20 yards 4 50 77. Parchment Tracing Paper, very tough, 37 inch wide, in rolls of 20 yards 5 50 78. Paragon Tracing Paper, very transparent, almost like glass, very tough, 56 inch wide, in rolls of 20 yards 5 50 HELIOGRAPHIC OR BLUE PROCESS PAPER. Paper chemically prepared to take copies from tracings by simple exposure to sunlight. Full directions furnished with the paper. 76. Continuous, 26i inch wide, in rolls of 10 yards per roll, $5 00 79A. In sheets, 26x40 inch per quire, $12 00 per sheet, 60 " 20x26 " " 6 00 " 30 (Other sizes made to order.) Photo Solution for preparing Heliographic Paper quart bottle, 4 00 Samples of Drawing Papers will be sent on application. Sample Book of Drawing Papers 15 CROSS SECTION PAPERS, Nos. 91, 92, 93 Printed in Orange, Blue or Green. 91. Cross Section 8 feet to one inch, dimensions of engraving i6£ x 22 inch, per quire $ 5 00 per sheet 25 92. Cross Section 10 x 10 to one inch, dimensions of engraving 16 x 20 inch, per quire 5 00 per sheet 25 93. Cross Section 5 x 5 to i inch, dimensions of engraving 16 x 20 inch, per quire 5 °° per sheet 25 97. Cross Section, 16 x 16 to one inch, continuous 24 inch wide, printed in orange, per yard 4° 94. Cross Section 5 x 5 to one inch, 16 x 21 ruled in blue, per quire 1 50 95. " 10 x 10 " 16x21 " 15° 96. " 8x8 " 16 x 21 " " 1 50 S9. " millimetre, 18 x 24, printed in orange, per sheet. . 25 98 A. & A. F. SPITZLI'S - PROFILE PAPERS, Printed in Orange or Green. No. Price. 80. Plate A, 15 x 42 inch, horizontal ruling 4, vertical ruling 20 to one inch, per quire 8 50 per sheet 40 83. Plate A, continuous, 22 inch wide, per yard 30 85. 22 " mounted on cloth, per yard 75 81. Plate B, 13J x 42 inch, horizontal ruling 4, vertical ruling 30 to one inch, per quire 8 50 per sheet 40 84. Plate B, continuous, 22 inch wide, per yard 30 86. 22 " mounted on cloth, per yard 75 82. Plate C, 15 x 42 inch, horizontal ruling 5, vertical ruling 25 to one inch, per quire 8 50 per sheet 40 ENGINEERS' FIELD BOOKS. Per Doz. 100. Field Book, 4^x7^ inch, bound in leather, round corners, 80 leaves, $6 00 101. Transit Book, 4^x7| i inch, " " " " 6 00 102. Level Book, 4x6^ inch, " " " " 4 50 DESIGN BOOKS. Leather Back, Cloth Sides or Binding. No. 2. Extra Size. Pages. Heavy. Heavy. 7 x 8£ 240 Price, fi 50 $2 00 8 x 10^ 240 " 1 75 2 25 9 x "i 240 " 225 275 9 x 14 480 " 5 00 6 00 11 x 16 480 " 6 00 8 00 12x18 480 " 800 1000 The above prices are for Binding No. *2. We also bind in two other styles, No. 1 and No. 3. The prices in the former are 10 per cent, less, and in the latter 15 per cent, more than the abo've list. No. 1 is plain, but very substantial "marbled paper" sides. No. 3 has extra stout back, sides like No. 2, leather corners. The superior merits of the No. 3 are most apparent on the larger sizes. Flexi- ble covers are furnished at same price, but never kept on hand, as they are not ordered frequently enough. Lettering in gold on sides or back costs a trifle extra, according to style and number of letters wanted. Above prices are all for design paper ruled alike on both sides ; some other styles can be furnished at same price, but any additional expense will be charged extra. More leaves or larger pages increase the price ILLUSTRATED CATALOGUE. 99 pro rata. More leaves and sizes just double the above in width, and same length, will be made to order, with no extra charge except that for the increase of paper, but odd sizes will cost more in proportion. Extra labor and waste of stock must all be paid for. Estimates cheerfully furnished. Note. — Very wide leaves are meeting with much "favor. They lay flat in what- ever part the book is opened. PATTERN OR SAMPLE BOOKS. < We furnish all the more popular Factory made Scrap and Invoice Books, which are often used for Pattern Books ; but the trade prices in these are so closely protected that we can offer our patrons no special inducement in them except the pains we take in selecting the goods, to avoid sending any that may be unservice- able or unsuitable. In regular Pattern Books we can, and do offer very material advantages. Our goods are expressly made for us by binders who have had work of this kind to do for years past. Their experience and our facilities for procuring first-clr.ss stock enable us to make our price list for the best work at rates far be- low those usually charged. Our price list includes only the goods of Messrs. Asa L. Shipman's Sons, besides our own manufacture. Cheaper goods will be made to order or procured from other parties and supplied at the lowest rates. Binding No. 1 throughout the entire list represents good, substantial binding, leather back, marbled paper sides. Binding No. 2, cloth sides, strong leather backs ; and No. 3, cloth sides and extra strong and durable backs. PATTERN OR SAMPLE BOOKS. Leather Back and Cloth Sides or Binding No. 2. Kind of Paper. Manila, size 7x8^, White Book, " Bristol Board, " Card Board, " Mat Leaves, " Manila, " SxioJ White Book, Bristol Board, " Card Board, " Mat Leaves, " Manila, " 9x11$ White Book, Bristol Board, " Card Board, " Mat Leaves, " Manila, " 9x14 White Book, " Bristol Board, " Pages. Heavy Paper. Extra Heavy Paper. $1 40 $1 60 <' «' I 50 00 I 75 .. " 2 2 50 " " 3 00 3 75 << " 5 1 1 00 60 75 50 50 6 00 .< << 2 10 11 .< 2 25 3 00 4 25 .. << 2 3 " " " " 6 00 7 00 it " 2 2 00 25 00 00 2 Z.O ,1 << 2 75 .1 i. 3 4 6 3 5° ■ 1 .. 4 75 7 SO 5 75 ,, • < 50 59 " 4 «i " 5 6 00 00 6 00 .. •• 7 00 lOO A. & A. F. SPITZLI'S Extra Heavy Heavy Paper. Paper. Card Board, size 9x14 480 Price, $700 $800 Mat Leaves, " " " 8 00 9 00 Manila, " 11x16 " "' 5 50 7 50 White Book, " " " " 6 00 8 00 Bristol Board, " "... - " 8 00 9 00 Card Board, " " " " 10 00 11 00 Mat Leaves, " " " " 12 00 1300 Manila, " 12x18 " " 7 25 9 00 White Book, " " " " 8 00 10 00 Bristol Board, " " " . " 1000 n 00 Card Board, " " " " 12 00 13 00 Mat Leaves, " " " 14 00 15 00 Lettering on the back costs a trifle extra. Deduct 10 per cent, from above prices for binding No. I. Add 15 per cent, for binding No. 3. All the papers used in these books are heavily calendered, and any part of them may be written upon with ink. Especially do we call attention to the amount of erasure that our papers will endure. SHIPMAN'S PATENT SCRAP BOOKS, Manila Paper. Dark Blue Sheep Backs and Corners, Raised Bands and Spring Backs. Price per Size. Pages. Description. No. Book. Demy io| x 15 236 Paper Sides 1 $1 85 " " 236 Cloth Sides 2 2 03 " " 344 Paper Sides 3 2 31 " " 344 Cloth Sides 4 2 53 " " 464 Paper Sides 5 301 " " 464 Cloth Sides 6 325 " 1 r x 16 236 Paper Sides 7 2 05 " " 236 Cloth Sides 8 225 " " 344 Paper Sides 9 2 61 " " 344 Cloth Sides 10 2 77 Medium 12^x17^ 236 Paper Sides 11 225 " 236 Cloth Sides 12 237 " " 344 Paper Sides 15 2 76 " " 344 Cloth Sides 16 2 98 " " 464 Paper Sides 015 3 67 " " 464 Cloth Sides 016 387 ILLUSTRATED CATALOGUE. IOl INVOICE BOOKS. Manila Paper, Indexed and Paged. Dark Blue Sheep Backs and Cor- ners, Raised Bands and Spring Backs. Can be used for Pattern Books. Price per Size. Pages. Description. No. Book. Demy io£ x 15 236 Paper Sides 70 $235 " " 35° " 7i 2 89 " 11x16 236 " 72 2 55 " " 350 " 73 3 18 Manila Paper, Ruled, Paged and Indexed. Dark Blue Sheep Backs and Corners, Raised Bands and Spring Backs. Price per Size. Pages. Description. No. Book. Demy 11x16 300 Paper Sides 74 $320 " " 400 " 75 3 82 Medium 12^x17$ 236 " 13 290 " " 236 Cloth Sides 14 3 10 " " 350 Paper Sides 17 372 " " 350 Cloth Sides 18 392 " " 470 Paper Sides 19 4 95 " " 470 Cloth Sides 20 5 15 Russia Back and Corners. " " 500 Paper Sides B 5 70 Full Rough Sheep. " " 500 C 6 20 Nos. 70, 71, 72, 73, 74, 75, 13, 17, 19 also in full Duck, at same prices, and num- bered 70 D, etc. Manila Paper. Dark Blue Sheep Backs and Corners, Spring Backs. Price per Size. Pages. Description. No. Book. Letter 8£ x 11 144 Paper Sides 21M $1 04 " " 192 " 22M I 24 Packet Post 10 x 12 144 Paper Sides 23M 1 14 " " 144 Cloth Sides 24M 1 28 •• " 192 Paper Sides 25M 1 39 " " 192 Cloth Sides 26M 1 51 " " 300 Paper Sides 27M 1 82 Note 6£ x 9 150 a 88 Manila Paper. American Russia Backs and Corners. Price per Size. Pages. Description. No. Book. Packet Post 10 x 12 300 Paper Sides 28m $2 23 300 Cloth Sides 29M 2 37 Heavy Paper, Assorted Colors. Dark Blue Sheep Backs and Corners, Spring Backs. Price per Size. Pages. Description. No. Book. Packet Post 10x12 96 Paper Sides 21 $112 96 Cloth Sides 22 1 19 102 A. & A. F. SPITZLI'S Price per Size. Pages. Description. No. Book. Packet Post 10 x 12 144 Paper Sides 23 $1 34 " " 144 Cloth Sides 24 1 47 " " 192 Paper Sides 25 r 63 .... " 192 Cloth Sides 26 1 73 Cap 9i x 13 192 Cloth Sides 29 1 93 " " 144 Cloth Sides 029 1 63 HERBARIUMS. White Paper. Dvrk Blue Sheep Backs and Corners, Spring Backs. Can be used for Pattern Books. Price per Size. Pages. Description. No. Book. Letter 8£ x 11 80 Paper Sides 31 $1 16 " 80 Cloth Sides 32 1 28 " 120 Paper Sides 33 1 45 " " 120 Cloth Sides 34 1 57 Cap 9^ x 13 80 Paper Sides 35 1 24 " 80 Cloth Sides 36 1 36 " " 120 Paper Sides 37 1 53 " 120 Cloth Sides 38 ] 73 Note 6i x 9 150 Paper Sides Aw 96 DRUGGISTS' PRESCRIPTION BOOKS. Manila Paper. Dark Blue Sheep Backs and Corners, Spring Backs. Can he used for Pattern Books. Price per Size. Pages. Description. No. Book. Packet Post 10 x 12 300 Paper Sides 45 $1 91 Demy io-J x 15 236 Paper Sides 46 2 06 " 344 Paper Sides 47 2 52 Medium 12$ x 17^ 464 Cloth Sides 48 410 Oblong, White Paper. Price per Size. Pages. Description. No. Book. 8 x ii-J Oblong 150 Half Roan, Cloth Sides 82 #1 50 150 Half Morocco, Cloth Sides 83 1 72 9 x 12J " 150 Half Roan Cloth Sides 84 1 72 150 Half Morocco, Cloth Sides 85 2 00 11 x 15^ " 200 Half Morocco, Cloth Sides 86 2 70 COPYING BOOKS. Best French Linen Paper, Blue Sheep Backs and Corners, Cloth Sides, Filleted on Sides, Lettered on the Back and Indexed. Size, 9x11 300 Leaves. .. .No. 1 Price per book, $1 70 500 " . . . . " 2 " 220 ILLUSTRATED CATALOGUE. IO Size, 9x11 700 Leaves qoo Size, 10x12 300 500 700 900 1000 Size, 10x14 300 500 700 ....... 900 Size, 6x9, 300 500 Any size or style of Binding No. 3 Price per book, $2 4- 5- 6. 7- 8. X. 9- 10. 11. 12 . . 13. • 14.... made to order. er boc k, $2 70 " 3 50 " 1 90 " 2 40 " 3 00 " 3 60 " 4 20 " 2 30 " 3 15 " 4 05 " 4 85 " 1 3° " 1 65 TRANSFER BOOKS. Manufactured by Asa L. Shipman's Sons. .(Oblong), full clolh, 200 leaves Roan back and corners, cloth sides, 200 leaves ' " " 200 - 3°° 500 ' " " 700 300 500 Prices include two pieces of Carbon and a Stylus. Carbon and Manifold Paper furnished by the ream or quire 200 . . . 4fx7j.... 201 . . . 6x9 .... 202. . . 7fxio. . . . 203 .. . " . . . . 204. . " .... 205 . . . " .... 206 . . 9^xi 1 207. . . " . . . . Price, $1 SHIPMAN'S PATENT LETTER AND INVOICE FILES. Size. 9x11 . . .250 Leaves " ..500 IOXI2 . ..250 " . .500 " 8^x9 . ..250 " 9x13 . ..250 " . .500 " 9x15 . ..250 " " . .500 7x11 ..250 " " ..500 12^x17^. ..250 " " . .500 " 11x15 . . 250 " ADHESIVE. .For Letters per doz., Bath Invoices Bills, Oblong. . Manifests, &c. . Prices Current. Cloth Sides. • doz., $12 00 19 5^ " 12 5o " 20 00 " IO 44 ' 12 00 19 5o 15 00 " 22 80 8 40 15 00 23 00 32 5o 15 60 104 A. & A. F. SPITZLI'S 11x15 6x9 10x12 7x6J Size. QXII IOXI2 Cloth Sides. .500 Leaves For Prices Current per doz., $24 00 ...250 . . . .500 250 . . ..250 . . .i-;o Note Letters. 10 20 15 00 8 40 15 00 " 7 20 Paper Sides. .250 Leaves For Letters per doz., $11 50 Telegrams, Oblong. ... American Russia Backs. Postal Cards 500 .250 .500 .250 .500 Invoices 9x13 The above bound in full duck at the same price as cloth sides. 19 00 11 50 19 00 11 50 19 00 Size. 9XII . 10X12 . 9x13 . 9x15 . 124x17+ NON-ADHESIVE. Cloth Sides. .250 Leaves No. 101 per doz., $10 80 . .500 . .250 . .500 . .250 • .500 . .250 . .500 . .250 . .500 102 103. 104. 105. 106. 107. 108. 109 no. 17 50 10 80 17 5'J 10 80 17 50 13 50 " 20 70 22 70 28 50 Parties desiring the Non-Adhesive File, please order by the numbers to avoid confusion. Any size File made to order at short notice. SHIPMAN'S STICKALINE. This article is a substitute for Mucilage or Paste, combining the adhesiveness of the one with the neatness and cleanliness of the other. Wherever it has been used it has become an indispensable article, either in the Home Library, Office or Workshop. It especially commends itself, as it does not stain or soil pic- tures, clippings, covers, fabrics, torn or loose leaves in books. Its composition enables it to retain its sweetness and adhesive properties for months and years, and a trial will convince any one that it is the best article in the market for any purpose for which mucilage or paste is used. No. 1. Half Pint, cork stopper per doz., $3 00 " 2. glass jar " 3 00 " 3. screw top jar " 3 60 ' ' 4. Pints, cork stopper " 4 50 " 5. Quarts, " " 8 00 Warranted not to mould or be injured by freezing. Liberal discount to the trade. Bottom discount given to wholesale dealers. ILLUSTRATED CATALOGUE. PENNELL'S BLACK WRITING INK. I05 Permanent Black Ink, Octagon Stands * per gross, $5 00 " Square " " 400 8 ounce .per doz. , 1 50 " Pints " 2 50 Quarts " 500 PENNELL'S COPYING INK. Stands per doz., $ 75 8 ounce " 2 00 Pints " 3 50 Quarts " 6 00 In ordering be sure to state the fact if Shipman's goods are wanted. I0 6 A. & A. F. SPITZLI'S . St/ndafjd Woijks on Textile ahd Scientific Subjects. We will furnish ANY book still in print at publishers' prices. The following are only the principal ones, which we have personally examined and found as repre- sented. Our outfit discounts include orders for books. By this liberal arrange- ment one may get a number of books from us cheaper than from any one else. Publishers' Catalogues furnished on receipt of price and postage. Ashton. — The Theory and Practice of the Art of Designing Fancy Cot- ton and Woolen Cloths from Sample. Giving full instructions for re- ducing drafts, as well as the methods of Spooling and making out har- ness for cross drafts, and finding any required reed, with calculations and tables of yarns. By Frederick T. Ashton, Designer. 52 illustra- tions. Folio $10 00 Ashenhurst. — The Use and Abuse of Arithmetic in Textile Calculations, 25 Ashenhurst. — A Practical Treatise on Weaving and Designing of Fabrics, with Chapters on the principles of Construction of the Loom, Calcula- tions and Color. With about 300 illustrations. 8vo. Bradford, 1879, 10 50 Auerbach — Crookes. — Anthracen. Its Constitution, Properties, Manu- facture, and Derivatives, including Artificial Alizarin, Anthrapurpurin, &c, with their applications in Dyeing and Printing. 8vo. London, 1877 5 00 Baldwin. — A Treatise on Designing and Weaving Plain and Fancy Woolen Cloths. With over 100 illustrations 4 00 Barlow. — The History and Principles of Weaving by Hand and by Power. With a Chapter on Lace-Making Machinery. By A. Barlow. With several hundred illustrations. 8vo 10 00 Contents. — Chapter I. Chronological Account of Weaving, etc. II. Ancient Looms. III. Warping and Beaming. IV. The Common Hand-Loom, Headles, Reed. V. The Fly Shuttle, Hand Shuttle, Drop Boxes, etc.; John Kay. VI.. Twills, Satins, Double Cloth. VII. Shedding Motions for Hand Looms. VIII. Figured Weaving without the Aid of Automatic Machines. IX. Diaper Weaving. X. The Draw Loom and Draw Boy Machine. XL The Jacquard Machine, In- troduction. XII. Description of the Jacquard Machine. XIII. The Jacquard Harness. XIV. Compound Harness for the Jacquard Loom. XV. Tissue Weaving and Swivels. XVI. Circle Swivels and Lappets. XVII. Cross Weav- ing. XVIII. Pile Fabrics, Velvets, Carpets, Chenille, etc. XIX. The Dutch Loom, The Bar Loom. XX. The Power Loom, M. de Gennes, Barber's Loom, Dr. Cartwright, Robert Miller, William Harrocks. XXI. Progress of Power Loom Weaving, Almond's Loom, The "Dandy" Loom, Operations Required in Power Loom Weaving. XXII. The Common Power Loom, Tappet Motions, Bowman's Robert's Woodcroft's, Schoenherr's Hattersley's and Pickles's. XXIII. Warp and Cloth Beam Motions, Elastic Loom, Schoenherr's Take-up, Common Let-off Motion, Gouilliond's, Schoenherr's, Belleard's, Hall's, Lord's. XXIV. ILLUSTRATED CATALOGUE. IC>7 The Fork and Grid Weft Stop Motion, Stop Rod, Loose Reed. XXV. Shuttles of Various Descriptions, Picking Motions, etc. XXVI. Jacquard Apparatus and Examples of Various Shedding Motions, Hattersley's and Smith's, Eccles's, The Method of Working the Jacquard Machine on the Power Loom, Cylinder Motion. XXVII. Drop and Circular Boxes, Diggle's Chain, Whitesmith's Box Motion, Leeming's, Long's. XXVIII. Ribbon Shuttles, Wheel Motion, Elastic, Web Weaving, Reddaway's Tube or Hose Loom, Three Shuttle Swivel. XXIX. The Needle or Shuttleless Loom, Application of the Principle to Swivels, to Double Cloth Belt Weaving. XXX. Temples, Warp Stop Motion, Heald Making, Pro- cess, of "Twisting-in," and Machines for Same. XXXI. Preparing Jacquard Cards, Recutting Machines. Fine Example of Designing, Beaumont's Treatise on the Texture of Linen Cloth, Various Tables and Calculations Required by Weav- ers. XXXII. The Levers' Lace Frame with Double Action Jacquard Apparatus. XXXIII. The Traverse Bobbin ; Net Machine, The Principle of its Action, John Heathcoat. XXXIV. The Stocking Loom, Knitting by Hand, William Lee, In- vention of the Stocking Loom, James Lee ; Description of the Loom and Process of Knitting, Jedediah Strutt, Butterworth, Frost, Crane's Warp Lace Machine, Dawson's Wheels, Sir M. I. Brunei's Circular Frame, Boswell's Fishing Net Ma- chine, Paterson's. XXXV. Substances Used for Weaving, Cotton, Flax, Wool, Hair, Jute, Silk, Process of Spinning, Silk Culture, Shoddy, Selecting Different Fibres from Waste Fabrics, Dressing Machine, William Radcliffe, Sizing Machines, etc. XXXVI. Summary, General Remarks, Appendix, Statistical Tables, Index and Glossary. Baird. — The American Cotton Spinner and Manager's and Carder's Guide. A practical treatise on cotton spinning, giving the dimensions and speed of machinery, draught and twist calculations, etc., with no- tices of recent improvements, together with rules and examples for making changes in the sizes and numbers of Roving and Yarn. Com- piled from the papers of the late Robert H. Baird. i2mo $i 50 Contents. — Introduction, On the Plan of a Factory Building, On the Main Gear- ing, On Water-wheels, Calculations of Horse Power for Propelling Cotton Spin- ning Machinery, Willie or Picking Machine, On Willeying Cotton, Spreading Ma- chine, On Spreading Cotton, Carding, Cards and Carding, Covering Emery Rollers and Emeries, The Drawing Frame, Roving, General Remarks on Drawing and Roving, Throstles, Remarks on Throstles, Mule Spinning, General Observations on Mule Spinning, Weaving, Belting, Miscellaneous Matters. Baird.— Standard Wages Computing Tables. An improvement in all former methods of computation, so arranged that wages for days, hours, or fractions of hours, at a specified rate per day or hour, may be ascertained at a glance. By T. Spangler Baird. Oblong folio $500 Bayley.— Hand-Book of Slide Rule 2 50 Benson. — Principles of the Science of Color. Illustrated. 4to 7 5° Benson.— Manual of the Science of Color. Illustrated. i2mo 125 Bevan's British Manufacturing Industries : Acids, Alkalies, Soda, Am- monia, Soap, Oil, Candles, Gas r 75 Wool, Flax, Cotton, Silk x 75 Hosiery, Lace, Carpets, Dyeing and Bleaching I 75 The Industrial Classes and Industrial Statistics, Textiles, Clothing, &c. 1 75 IOS A. & A. F. SPITZLI'S - Bezold. — The Theory of Color in its Relation to Art and Art Industry. By Dr. William Von Bezold. From the German by S. R. Koehler. Illustrated. 8vo $5 00 Box. — A Practical Treatise on Heat as Applied to the Useful Arts. Illus- trated by fourteen plates. i2mo 5 00 Box. — A Practical Treatise on Mill-Gearing. i2mo 3 00 Box. — Practical Hydraulics. i2mo 2 50 Bramwell. — The Wool Carder's Fade Mecum. (New Edition Shortly.) Bresse. — Hydraulic Motors. 8vo 2 50 Brown. — Five Hundred and Seven Mechanical Movements. i2mo 1 00 Brown — A Practical Treatise on the Power-Loom and the Art of Weav- ing. i2mo 1 75 Burns. — American Woolen Manufacturer. Illustrated by patterns. 8vo 6 50 Calvert. — Dyeing and Calico Printing, including an account of the most recent improvements in the manufacture and use of Aniline Colors. Illustrated with wood engravings and numerous specimens of printed and dyed fabrics. By the late Dr. F. Grace-Calvert. Edited by John Stenhouse and Charles Groves. 8vo. Manchester, 1876 8 00 Chevreul. — The Principles of Harmony and Contrast of Colors, and their Application to the Arts. Illustrated. i2mo 3 75 Cooke. — Rust, Smut, Mildew and Mould ; Microscopic Fungi. i2mo. . . 3 00 Cooper. — A Treatise on the Use of Belting for the Transmission of Power. Fully illustrated. 8vo 3 50 Ckaik. — The Practical American Millwright and Miller. By David Craik, Millwright. Numerous wood engravings and folding plates. 8vo... 5 00 Crookes. — A Practical Hand-Book of Dyeing and Calico Printing. Illus- trated by dyed patterns and wood engravings. 8vo 15 00 Cullen. — Practical Treatise on the Construction of Horizontal and Verti- cal Water Wheels. 4to 5 00 Davis, Dreyfus and Holland. — Sizing and Mildew in Cotton Goods. An exhaustive inquiry into the Chemistry of Sizing, and the Origin of Mildew and other discolorations 6 50 Downing. — The Elements of Practical Hydraulics. 8vo 2 75 Dussauce. — A General Treatise on the Manufacture of Every Description of Soap. Comprising the Chemistry of the Art, Alkalies, Saponifiable Fatty Bodies, Apparatus, the Assay of Soaps, etc. Illustrated. 8vo. 17 50 Dyer and Color Makers' Companion. i2mo 1 25 Fairbairn. — Principles of Mechanism and Machinery of Transmission. Illustrated by 150 wood cuts. i2mo 2 50 Fairbairn. — Treatise on Mills and Mill Work, 1 vol., 8vo 10 00 Fustian Manufacturing. — The Complete Guide to Fustian Manufac- turing, containing How to Manage the Loom, the Art of Analyzing Cloth and making Draughts or Tapit Patterns for Velvets, Beavers, Sateens, Twills, Velveteens, Cantoons, Fustians, Nankeens, Ging- hams, and all sorts of Fancy Cloths, with Reed Table and Examples. By a Practical Man. Manchester. ....... I 00 ILLUSTRATED CATALOGUE. IO9 Foley. — The Cotton Manufacturers' Assistant. i2mo $1 00 Gelpard. — Hand-Book of Cotton Manufacture. i2mo 2 50 Gibson. — The American Dyer. A Practical Treatise on the Coloring of Wool, Cotton, Yarn and Cloth, embracing in all over two hundred receipts for Colors and Shades, and ninety-four samples of Colored Wool and Cotton Waste, etc. By R. H. Gibson. 8vo 6 00 Gilroy. — The Art of Weaving by hand and power. By C. G. Gilroy. Illustrated. 8vo 10 00 Glynn. — Water Power as Applied to Mills. i2mo 80 Haserick. — The Secrets of the Art of Dyeing Wool, Cotton and Linen. Including Bleaching and Coloring Wool and Cotton Hosiery and Random Yarns. By E. C. Haserick. Illustrated by samples. 8vo. 25 00 Holdsworth. — Ready Reckoner for Hanks in Worsted Pieces, being tables giving the net yarn in hanks required in pieces, from five to fifty picks per quarter inch, fifteen to eighty inches in width, and one to one hundred yards in length. 506 pages. 8vo. London, 1876... 10 50 Holland. — The Cotton Spinners' Guide and Manager's Assistant, con- taining the Art of Calculation through all the various operations in a Cotton Mill. Manchester 50 Hovell. — Essay on the Disc and Differential Motions as Applied to the Fairbairn, Kennedy and Naylor's Roving Machines. With Rules and Calculations for the Bobbin as a follower and leader, and its adjust- ment to any size of rove. The Scroll, and how to make it, etc. Il- lustrated with diagrams 75 Hyde. — The Science of Cotton Spinning. By James Hyde. 8vo 5 25 Tarmain. — Cantor Lectures on Wool Dyeing. London, 1876. Paper, 1 00 Johnson. — The Practical Draughtsman's Book of Industrial Design and Machinists' and Engineers' Drawing Companion. With over Fifty Steel Plates. 4to. , one-half Morocco 10 00 Kutter. — The New Formula for Mean Velocity of Discharge of Rivers and Canals. 8vo 5 00 Langewald. — Latest Practical Method for Self-Acquirement of the Science of Weaving. With a general Introduction to the Manufac- ture of Woolen Cloth. With 118 plates of designs. 4to 10 00 Contents of the Book. 8. Three Harness Drafts. 44. Fourteen Harness Drafts. 151. Four " 83. Five " 157. Six 73. Seven " 361. Eight " 63. Nine " 229. Ten " 84. Eleven " 211. Twelve " 51. Thirteen " 303. Drafts with Cross Draws. Total number of Drafts 2259. The largest collection of ground textures yet published. S7- Fifteen 87. Sixteen 47- Seventeen 45- Eighteen iq. Nineteen 75- Twenty 30. " One 12. " Two 12. " Three 57- " Four I IO A. & A. F. SPITZLI'S Langewald. — Tables to Lay Out Lots for Warps, Dressing Reeds, etc. (Reprinted from the above) $i oo Lawson's Reed Table i oo Leffel. — The Construction of Mill Dams. 8vo 2 50 Leigh. — The Science of Modern Cotton Spinning. Embracing Mill Architecture ; Machinery for Cotton Ginning, Opening, Scutching, Preparing and Spinning, with all the latest improvements. Also, Articles on Steam and Water Power, Shafting, Gearing and American System of Belting compared ; Generation of and Application of Steam criticized and explained ; Boilers, Boiler Explosions, &c. — all tending to show where the outlay of capital may be economized and produc- tion cheapened. By Evan Leigh, C. E. Second edition. Illustrated with 259 cuts and 29 plates. 2 vols., folio, cloth 35 00 Leigh. — The Practical Cotton Spinner and Manager's Assistant. i2mo.. 1 00 Leroux, C. — A Practical Treatise on the Manufacture of Worsteds and Carded Yarns. Comprising Practical Mechanics, with Rules and Cal- culations applied to Spinning, Sorting, Cleaning and Scouring Wools, the English and French Methods of Combing, Drawing and Spinning Worsteds and Manufacturing Carded Yarns. Translated from the French of Charles Leroux, Mechanical Engineer and Super- intendent of a Spinning Mill ; by Horatio Paine, M. D., and A. A. Fesquet, Chemist and Engineer. Illustrated by twelve large plates. To which is added an appendix, containing extracts from the Reports of the International Jury, and of the Artisans selected by the commit- tee appointed by the Council of the Society of Arts, London, on Woolen and Worsted Machinery and Fabrics, as exhibited in the Paris Universal Exposition, 1867. 8vo., muslin 5 00 Love. — The Art of Dyeing, Cleaning, Scouring and Finishing. 8vo. ... 5 00 Macfarlane. — A Practical Treatise on Dyeing and Calico Printing 10 00 McLaren. — Report to the Worshipful Cloth Workers' Company of Lon- don on the Weaving and Other Technical Schools of the Continent. By W. S. B. McLaren, M. A., and J. Beaumont. i2mo 1 00 Moss. — The Cotton Manufacturer's, Manager's and Spinner's New Pocket Guide. By John Moss. i2mo 1 75, Murphy. — A Treatise on the Art of Weaving. With Calculations and Tables. 8vo 20 00 Napier. — A Manual of Dyeing and Dyeing Receipts for Dyeing any Colors on Cotton, Silk and Wool. With Colored Patterns of Cloth of each fabric. 8vo 10 50 Napier. — A System of Chemistry Applied to Dyeing. Svo 5 00 Neville. — Hydraulic Tables, Co-Efficients and Formulae for finding the discharge of Water from Orifices, Notches, Weirs, Pipes and Rivers. l2mo 5 00 O'Neil. — A Dictionary of Dyeing and Calico Printing. 8vo 5 00 O'Neill. — The Practice and Principles of Calico Printing, Bleaching, Dye- ing, &c. 2 vols., 8vo. Manchester, 1878 15 00 ILLUSTRATED CATALOGUE. I I I Rankine. — A Manual of Machinery and Mill Work. i2mo $500 Reimann. — On Aniline and its Derivatives. 8vo 2 00 Rose. — The Complete Practical Machinist. Embracing Lathe-work, Vise- work. Drills and Drilling, Taps and Dies, Hardening and Tempering, &c, &c. By Joshua Rose. 130 engravings. i2mo .... 2 50 Scott's Practical Cotton-Spinner and Manufacturer. Eighth Edition. Plates. 8vo 6 00 Slater. — The Manual of Colors and Dye Wares. i2mo 3 75 Smith. — Practical Dyer's Guide. Containing 500 Dyed Patterns, to each of which a genuine receipt is given. Second Edition. 238 pages. 8vo. 25 00 Smith. — The Dyer's Instructor. Containing nearly 800 Receipts. 121110. 3 00 Smith. — The Dyer's Instructor. Comprising Practical Instructions in the Art of Dyeing Silk, Cotton, Wool, and Worsted and Woolen Goods. Third Edition, with many Additional Receipts for Dyeing the New Alkaline Blues and Night Greens, with Dyed Patterns affixed. i2mo., pp. 394, cloth. London, 1876 10 50 Thomson. — The Sizing of Cotton Goods and the Causes and Prevention of Mildew. Illustrated. 8vo. Manchester, 1879 ... 4 50 Townsend. — A Complete Ready Reckoner for Cotton Warps. Showing the number of hanks in warps of any length, from 1 to 1,000 yards, and for any number of ends, from 1 to 6,000, with tables for all the different counts that are made, from 4's single up to 200's single, or 400's two-fold, by which the weight of any description of warp may be seen from the number of hanks it contains, in pounds, ounces, and drachms. 8vo 12 50 Wagner. — A Hand-Book of Chemical Technology. Translated and ed- ited by William Crookes, F. R. S. With 336 Illustrations. 8vo. ... 5 00 Watson. — The Art of Spinning and Thread-Making. With Calculations and Tables for the use of the Carding and Spinning Master. 8vo. Glasgow, 1876 5 00 Watson. — Theory and Practice of the Art of Weaving. Illustrated. 8vo. 7 50 Contents. — Introductory Remarks. Chapter I. On Yarns. II, Weaving. III. On Starting Power Looms. IV. Power Looms. V. Damask Looms. VI. Wool Weaving. VII. Lappet and Gauze Weaving, etc, VIII. Mount- ing, etc. IX. Calculations, Tables, etc. X. Miscellaneous. Webb. — Warp-sizing. A Practical, Theoretical and Chemical Treatise. 8vo. Manchester, 1877 3 75 Webber. — Manual of Power for Machines, Shafts and Belts, together with the History of the Cotton Manufacture in America. 8vo 3 50 Weisbach. — Hydraulics and Hydraulic Motors. With 380 Illustrations. 8vo 600 White. — A Practical Treatise on Weaving by Hand and Power. 8vo 10 00 j , 2 A. & A. F. SPITZLI'S BOOKS ON THE MICROSCOPE AND OTHER SCIENTIFIC INSTRUMENTS. Any work in the following list will be mailed free to any address in the United States or Canada on receipt of the price. Brewster. — A Treatise on Optics. By Sir David Brewster. 520 pages, fully illustrated $2 50 Dick. — The Telescope and Microscope. By Rev. Thomas Dick. 192 pages 5° Wood. — Common Objects of the Microscope. With 400 illustrations, printed in colors 50 Cooke. — 1,000 Objects for the Microscope. With 400 illustrations. By M. C. Cooke 50 Cooke. — Microscopic Fungi. An Introduction to the Study of Rust, Smut, Mildew and Mould. Illustrated by nearly 300 figures, colored. By M. C. Cooke, author of British Fungi, etc 2 50 Hogg. — The Microscope. Its History, Construction and Application. Being a familiar introduction to the Use of the Instrument and the Study of Microscopical Science, with Directions for Collecting, Pre- serving and Mounting Objects. Illustrated with upwards of 500 en- gravings and colored illustrations. 750 pages 3 50 Beale. — How to Work with the Microscope. By Lionel S. Beale, M.D., F.R.S. Fourth edition, greatly enlarged 7 50 Beale. — The Microscope and its Application to Clinical Medicine. By Lionel S. Beale, M.D., F. R. S. Fifth edition, 1880 750 The Aneroid Barometer. Its Construction and Use. Compiled from several sources, and reprinted from Van Nostrand's Magazine. 106 pages 50 Carpenter. — The Microscope and iis Revelations. By Dr. W. B. Car- penter. Latest edition, 25 plates and 449 wood engravings. 848 pages 5 50 GRIFFITH. — Elementary Text-Book of the Microscope, with a Description of the Methods of Preparing and Mounting Objects, etc. With 12 colored plates, 451 figures. By J. W. Griffith, M. D., F. R. S 3 75 Davies. — Hand-Book on Preparing and Mounting Microscopic Objects. Latest edition, fully illustrated and brought up to the present time. By Thomas Davies I 25 Lankester. — Half hours with the Microscope. A Popular Guide to the use of that instrument, 130 pages. Profusely illustrated. By Edwin Lankester, M. D 125 Stowell. — The Student's Manual of Histology. A Text- Book for the Student, and a Complete Guide for the Practitioner and Microscopist. By Prof. Charles H. Stowell of the University of Michigan. 300 pages, octavo, with 192 engravings 2 00 Gibbes.— Practical Histology and Pathplogy, 107 pages. New. By H. Gibbes, London 1 00 ILLUSTRATED CATALOGUE. II3 Suffolk. — On Microscopical Manipulation. Being the subject-matter of a Course of Lectures delivered before the Queckett Microscopical Club. By W. T. Suffolk, F.R.M.S., with 49 engravings and 7 litho- graphs $2 00 Goose. — Evenings at the Microscope. 477 pages. Profusely illustrated. By Philip Henry Goose, F.R.S 1 50 Seiler. — A Compendium of Microscopical Technology for the Use of Students and Physicians. 130 pages and numerous illustrations of apparatus. By Dr. Carl Seiler, Philadelphia ,.. 1 00 Martin. — A Manual of Microscopic Mounting. Profusely illustrated with wood cuts and drawings on stone. By John H. Martin 3 00 Phinn. — Practical Hints on the Selection and Use of the Microscope. By John Phinn. 131 pages, illustrated 75 Slack. — Marvels of Pond Life. Fourth edition, with colored plates and numerous wood-cuts 2 00 Smith. — How to See with the Microscope. By Prof. J. Edwards Smith. With profuse illustrations 2 00 Beck. — A Treatise on the Construction, Proper Use and Capabilities of R. & J. Beck's Achromatic Microscopes. By Richard Beck. Royal 8vo. , with 27 plates 5 00 Proctor. — Half Hours with the Telescope, with numerous illustrations on stone and wood. By Richard A. Proctor, F.R.A.S 1 25 Frey. — The Microscope and Microscopical Technology. A text-book for Physicians and Students. By Dr. Heinrich Frey, Professor of Medi- cine in Zurich, Switzerland. Translated from the German and Edited by George R. Cutter, M.D., Clinical Assistant to the New York Eye and Ear Infirmary. Illustrated by 343 engravings on wood, and con- taining the price lists of the principal Microscope-makers of Europe and America. From the last German edition. In one handsome 8vo. volume, bound in extra cloth, new edition 6 00 The Micrographic Dictionary. — A guide to the examination and in- vestigation of the structure and nature of Microscopic Objects. By J. W. Griffiths and Arthur Henfrey. 845 pages. Illustrated by 48 plates and over 800 wood engravings. Third edition. London, 1875. 22 00 Wythe. — The Microscopist. Last edition greatly enlarged and profusely illustrated. By Dr. J. H. Wythe 4 50 WINSOR AND NEWTON'S BOOKS ON ART. each 40 cents. 1. The Art of Sketching from Nature, by Th. L. Rowbotham. 2. Hints of Sketching in Water Colors from Nature, by Thomas Hatton. 3. The Art of Landscape Painting in Water Colors, by Th. Rowbotham. 4. A System of Water Color Painting, by A. Penley. 5. The Art of Marine Painting in Water Colors, by J. W. Carmichel. 6. The Art of Portrait Painting in Water Colors, by M. Merrifield. 7. The Art of Miniature Painting, by Ch. W. Day. 8. The Art of Flower Painting, by M. Duffield. 8 114 A. & A. F. SPITZLI'S - g. The Elements of Perspective, by Penley. 10. The Art of Figure Drawing, by C. H. Weigall. 11. An Artistic Treatise on the Human Figure, by H. Warren, K. L. 12. Artistic Anatomy of the Human Figure, by H. Warren, K. L. 13. The Artistic Anatomy of the Horse, by B. W. Hawkins. 14. The Artistic Anatomy of Cattle and Sheep, by B. W. Hawkins. 15. The Art of Painting and Drawing in Colored Crayons, by H. Murray. 16. The Principles of Coloring in Painting, by Charles Martel. 17. The Principles of Form in Ornamental Art, by Charles Martel. 18. The Art of Mural Decoration, by T. G. Goodwin. 19. A Manual of Illumination, by J. J. Laing. 20. Companion to Manual of Illumination, by J, J. Laing. 21. Transparency Painting on Linen, by W. Williams. 22. The Art of Transparent Painting on Glass, by Ed. Groom. 23. The Art of Wood Engraving, by Th. Gilks. 24. Drawing Models and their Uses, by J. D. Harding. 25. The Art of Botanical Drawing, by F. W. Burbidge. GEORGE ROWNEY & CO.'S BOOKS ON ART, EACH 40 CENTS. 30. Hints on Sketching from Nature, by N. E. Green Part 1. 31. " " " " " " " " IL 32. ' ' " " TIL 33. Guide to Figure Painting in Water Colors, by S. T. Whiteford. 34. Guide to Sketching from Nature in Water Colors, by L. C. Mills. 35. Principal of Perspective, by H. Lewis. 36. Guide to Water Color Painting, by R. P. Noble. 37. Guide to Light and Shade Drawing, by Mrs. M. Merrifield. 38. Guide to Pencil and Chalk Drawing, by G. Tlarley. 39. Guide to Pictorial Perspective, by B. R. Green. 40. Guide to Pictorial Art, by H. O'Neil. 41. Guide to Figure Drawing, by G. E. Hicks. 42. Guide to Flower Painting in Water Colors, by G. Rosenberg. 43. Guide to Painting on Glass, by H. Bielfeld. 44. Guide to Miniature Painting and Coloring Photographs, by J. S. Templeton. 45. Hints for Sketching Trees from Nature in Water Colors, by Th. Hatton. 46. Guide to Animal Drawing, by C. H. Weigall. W. HERMES STUDIES, SYSTEMATIC DRAWING-SCHOOL. For Schools and Self-Instruction. (250 books each containing 6 studies 5! x gf inch, each 25 cents. I. Easy Lessons for Beginners. a. Lines, Squares, etc. No. 1, 2, 3. 4. b. Geometrical Figures. No, 5, 6, 7, 8. ILLUSTRATED CATALOGUE. I ] 5 c. Figures of Straight Lines. No. g, 10. 11, 12. d. Figures of Straight Lines Shaded. No. 13, 14, 15, 16. II. Arabesques and Ornaments. a. Outlines. No. 21, 22, 23. b. Shaded. No. 24, 26, 27. c. Outlines. (Vases.) No. 28, 29. d. Ornaments, Greek, etc. No. 32, 34, 35, 36. e. Ornaments for Decoration, printed in tint. No. 40, 41, 42, 43, 44, 45. III. Studies in Still Life. Outlines. No. 52, 55, 57, 58, 59. IV. Landscapes. a. Outlines. No. 61, 62, 65, 66, 67, 68, 71, 72. b. Light Shaded. No. 75, 76, 71, 78, 81, 82, 83, 84, 85, 86, 89, 90. c. Full Shaded. No. 96, 97, 98, 99, 102, 103, 104, 105, 106, 107, 108, 109, no, in, 112. V. Foliage of Trees and Shrubbery. No. 120, 121, 122, 123, 124, 125. VI. Ships. a. Outlines. No. 130. b. Light Shaded. No. 131. c. Full Shaded. No. 132, 133. VII. Flowers and Fruits. a. Flowers, outlines. No. 140, 141, 142, 143, 144, 145. Fruits, outlines. No. 150, 151, 152, 153, 154. b. Flowers, light shaded. No. 160, 161, 162, 163, 164, 165, 166, 167. Fruits, light shaded. No. 171, 172. c. Flowers, full shaded. No. 175, 176, 179, 180, 181, 182, 183, 184, 185, 186. Fruits, full shaded. No. 191, 192. Fruits and Flowers. No. 195, 196, 197, 198. VIII. Animals. a. Animals, outlines, No. 210, 211, 212, 213, 215, 216, 217. Horses, outlines. No. 221, 222. b. Animals, light shaded. No. 225, 226, 227, 228, 229, 230, 231. Horses, light shaded. No. 235, 236. c. Animals, full shaded. No. 237, 238,. 239, 240, 241. Horses, full shaded. No. 245, 246, 247, 248. Birds. No. 251, 252. XL Human Figures. a. Parts, outlines. No. 261, 262, 263, 264. Eyes, outlines and light shaded. No. 268. Faces, outlines and light shaded. No. 269, 270. b. Parts, shaded. No. 272, 273, 274, 275. c. Heads, outlines. No. 278, 279, 280, 281, 282, 283. d. Heads, light shaded. No. 284, 285, 286, 287, 288. e. Heads, full shaded. No. 291, 292, 293, 294, 295, 296, 300, 301, 302, 303, 304, 305, 306, 307, 308,309, 310. n6 A. & A. F. SPITZLI'S f. Full Figures, outlines. No. 315, 316. g. Full Figures, light shaded. No. 320 321, 322, 323, 324. h. Full Figures, full shaded. No. 331, 332, 333, 334. WILHELM HERMES' DRAWING STUDIES FOR ADVANCED STUDENTS. (125 books, each including 4 studies 8f x n^ inch, each 50 cents.) 1. Landscapes full shaded, about 50 books. 2. Flowers and Fruits 3. Human Figures and Heads 4. Arabesques 5. Animals 6. Horses 7. Foliage of Trees and Shrubbery 10 20 10 10 5 20 We can furnish any of the books in D. Van Nostrand's Catalogue of A and Foreign Scientific Books. ILLUSTRATED CATALOGUE. 117 CONTENTS OF CATALOGUE. Pages. Achromatic, Marine, Field and Spy Glasses, Telescopes 50 Advertisements 1 19-128 Aluminium Field and Marine Glasses 50 Apparatus and Accessories 33-35-48 Astronomical Telescopes 50 Beck's Patent Clinical Thermometers 55 Books on the Microscope 112 Brushes, Dissecting 44 Business Notice 4 Cabinets and Cases 45-48 Camera Lucida 54 Charcoal Pencils 81 Chemicals and Chemical Cabinets 82-88 China and Glassware 76 Claude Loraine 52 Compound Microscopes '. .9-18-21-22 Copying Books 102 Cross Section Papers 97 Design Papers 99 _ 9 2 Design Books 98 Darwing Boards 68 Drawing Books 11 3-1 16 Drawing Papers 92-98 Drawing Pins and Tacks 69 Drawing Tables 68 Druggists' Prescription Books, (good for pattern books,) 102 Empty Cases 76 Engineers' Field Books, (can be used for pocket Design Books) 98 Erasing Rubber 79 Files for All Kinds of Papers - 103-104 Folding Easels 90 Hand Mirrors 53 Hard Rubber Drawing Tools 67 Heliographic Paper 97 Inks, Black, etc 105 Inks, Chinese 75 Inks, Indelible • • 75 Inks, Indian 75 Introduction 6 Invoice Books xo1 Klaeger Insect Pins 53 I 1 8 A. & A. F. SPITZLI'S Pages. Lamps 3 8 ~39 Lenses 27-28 Lead Pencils 76-82 Magic Lanterns 53 Magnifying Glasses 23-26 Mathematical Instruments 56-67 Mounting Materials 41-43 Needles, (Dissecting) 40 Nicol's Prisms 52 Objects, (Microscopic) 44 Objectives 23-33-34 Object Glasses 28 Opera Glasses 50 Optical Instruments 9 Outfits 7 Parcel Pens 78 Pattern, Sample or Scrap Books 99-102 Portfolios 90 Preface 5 Prisms 29 Reading Glasses 29-32 Round Writing Pens . . . 78-79 Scales 88-90 Scientific Books 107-109 Scissors 40-41 Single Microscopes 19-20 Spectacle Lenses 5 1—52 Sponge Rubber 79 Standard Works on Textile Subjects 106 Standard Yard Measure 89 Staining and Injecting Fluids 43 Stickaline 104 Steel Pens 82 Sundry Optical Instruments 50 Tracing Papers 96 Transfer Books 103 Water Colors 70-75 Weights 88 TIEIIE ACME TENTER CLOTHING. Patented November 4, 1879. IN USE BY James Roy & Co., West Troy, N Y. Charles Spencer & Co., Germantown, Pa. C. H. & F. H. Stutt, Stottville, N. Y. Rock Manufacturing Co , Rockville, Conn. Globe Woolen Mills, Utica, N. Y. A. T. Stewart & Co., New York. W. S. Taylor & Bloodgood, Jr., Rahway, N.J. American Mills, Rockville, Conn. Blake & Co., Racine, Wis. Hockanum Co.. Rockville, Conn. Lacon Woolen Mfg Co , Lacon, 111. A. Linn, Esq., Hartland, Me. Mallieu & Brothers, Millington, Md. G. P. Dennis, Esq , Chester, Pa. Shaw, Esrey & Co., Chester, Pa. Devenport Woolen Mills, Devenport, la. Sevill Schofield, Esq., Philadelphia, Pa. Merrimack Woolen Co,, Lowell, Mass. Tingue, House & Co , Glenville, Conn. Plunkett Woolen Co,, Hinsdale, Mass. C. F. Underhill, Esq., Franklin, N J. Aldrich & Milner, Moosup, Conn. Nicol Woolen Mills Co., St. Clair, Mich. Pontoosuc Woolen Mfg Co., Pittsfield, Mass. AND MANY OTHERS. SZEl^THD ZE^OIR, IFIE&ICDE LIST. THOS. J. LACY, Sole Manufacturer, WEST TROY, N. Y. 119 YARNS. MOHAIR, WORSTED and GENAPPES, FOR MANUFACTURERS. SPECIALTY. YARNS for EFFECTS in Cassimeres, Coatings, Cotton Warps, &c, &c. SINGLE YARNS in FAST COLORS, and all sizes, for Twisting ; in stock and made to order. TWISTED YARNS, as: Red and Black, Black and Blue, &c, &c. , on dresser spools or in skeins. KNOTTED YARNS in all Colors; and PRINTED YARNS, in Various Effects, made to order. Samples Sent on Application. TINGUE, HOUSE & CO., 56 READE STREET, 2nTE]TX7- TOISK OIT"3T- P. O. BOX NO. 2848. 120 A Practical Treatise on Weaving and Designing of Textile Fabrics, WITH CHAPTERS ON THE Principle of Construction of tie Loom, Calculation anil Color, UPWARbs OF 300 ILLUSTRATIONS. BY THOMAS R. ASHENHURST. SLIDE RULE FOR MANUFACTURERS. A complete and handy Ready Reckoner for finding the hank of Worsted in a piece of Fabric, or the weight of Warps. BY THOMAS R. ASHENHURST. SLIDE RULE FOR WORSTED SPINNERS. Gives at one setting the length of roving on a bobbin ; also, at one setting, the draft and wheel for a spinning frame to spin any count. No gauge points used. Simple and convenient for the pocket. BY THOMAS R. ASHENHURST, BRADFORD, ENGLAND. ORDERS MAY BE SENT TO ^. SC j^. IF 1 - SPITZLI 121 Gfflf, SHERMAH .& INHIS IMTURTEHS AND MANUFACTURERS OF DYE WOODS, DYE STUFFS, DRUGS, Etc., Etc. O K'K'I O E : NO. 12 WILLIAM STREET, NEW YORK CITY MILLS AT POUGHKEEPSIE, N. Y. 122 ESTABLISHED 1837. Manufactures of the Jos. Dixon Crucible Co. DIXON'S CRUCIBLES, DIXON'S LUMBER PENCILS, DIXON'S LUBRICATING PLUMBAGO, DIXON'S FOUNDERS' PERFECT WASH, DIXON'S CARBURET OF IRON STOVE POLISH, DIXON'S FINE OFFICE AND DRAWING PENCILS, DIXON'S AMERICAN GRAPHITE PAINT, DIXON'S EX. EX. PLUMBAGO FACING, DIXON'S EVERLASTING GRAPHITE GREASE, DIXON'S SPECIALTIES FOR FOUNDERS, DIXON'S FINDINGS FOR STEEL MELTERS. HIGHEST PRIZES AWARDED. AMERICAN INSTITUTE, NEW YORK 1839, 1848, 1849, 1853,1857, 1878 FRANKLIN INSTITUTE, PHILADELPHIA 1848, 1849 MASSACHUSETTS MECHANICS' ASSOCIATION, BOSTON 1839, 1844,1847,1849 MARYLAND INSTITUTE, BALTIMORE 1859, 1872 CINCINNATI EXPOSITION 1870, 1871, 1872 BUFFALO (N. Y.I EXPOSITION, 1871. ST. LOUIS..-. 1871 PARIS, 1867 SILVER MEDAL VIENNA, 1873 THREE MEDALS CENTENNIAL, 1876 TWO MEDALS PARIS, 1878, TWO GOLD MEDALS, And the Only Gold Medal awarded for Pencils at that Exhibition, over all the European Makers. PARIS, 1878.. BRONZE MEDAL. jag 1- We have never exhibited without receiving the Highest Awards in our Classes. THE JOSEPH DIXON CRUCIBLE COMPANY, ORESTES CLEVELAND, President. WM. A. BROWN, Treasurer. JOHN A. WALKER, Secretary. JEIBSE"Z" CITT", 3>T. T. WORKS AND OFFICES: 229 to 239 RAILROAD AVENUE, 158 to 175 WAYNE STREET, 337 to 3SO MONMOUTH STREET. GRAPHITE MINES AND MILLS AT TICONDEROGA, N. Y. OLDEST HOUSE IN THE GRAPHITE TRADE, And the Only Manufacturers in the World owning Graphite Mines. 123 The Manufacturers' Review INDUSTRIAL RECORD. A MONTHLY PAPER DEVOTED TO TEXTILE. INTERESTS. J. M. PETERS, Editor. THE INDUSTRIAL RECORD CO., Publishers. | Subscription Price for U. S. and Canada, including postage, per annum, - $i 50 With Dyer's Supplement, - - - - - - 5 00 Foreign Subscription, including Postage, - - - 1 75 With Dyer's Supplement, - - - - - - 5 50 ALL BILLS ARE COLLECTIBLE AT THE OFFICE. All payments for advertising or subscriptions to this journal should be in Checks, Drafts, or Post Office Orders, and be drawn to the order of WILLIAM O. ALLISON, Treas., and to no other person. NEW YORK OFFICE, No. 42 CEDAR STREET. P. 0. BOX 1396, NEW YORK. ADVERTISING DEPARTMENT: J. FRANKLIN RIDAY, General Manager, 42 CEDAR STREET, NEW YORK. Prompt attention will be given to applications for advertising space. AUTHORIZED AGENTS: WALT. B. GUILD, Traveling Agent. JAMES WHITEHEAD, Jr., Springville, Utah. H. MAHLER, 16 Rue de la Grange, Barteliere, Paris. 124 Mohawk & Hudson M'f'g Co., IRON AND BRASS FOUNDERS A. N U MACHINISTS, MANUFACTURERS OF HYDRANTS, VALVES, MISCELLANEOUS MACHINERY WATERFORD, N. Y. 125 -L V. W H R Notice is hereby called to the fact that we are prepared to furnish any kind of RUBBER STAMPS, AND RUBBER TYPE, With all the ]\ecess/ry Accessories, AT MANUFACTURERS' PRICES. We send out the manufacturers' price lists, on receipt of applications enclosing postage. A new article in this line made specially for us, is of great importance to design- ers who have time and the desire to keep their books in elegant shape : "THE DESIGNER'S TYPE," FOR CHAIN DRAFTS. A draft may be set up in a pallet, proved and corrected, and finally printed in a book or on a sheet of paper, in nearly the same time it would take to copy it neatly, and when done it is by far more clear and elegant than a written draft or design. szeostid :po:r. si=Eoii^rE3srs, A. & A. F. SPITZLI, WEST TROY. N. Y. 126 LAWSON'S REED TABLE IS REFERRED TO IN SPITZLI'S MANUAL, Under the head of " "Fables," where the following comments may be found : " UJL WSOJST'S SlBJEJJ TABLE is more complete, in detail than those herein- con- tained, and is in the form of a Sheet, -which may be framed ot mounted. (( Some prefer this form to those fomid in boohs, becaizse the entire Table is in fall ■vzew. " 12V Carefully Compiled for the Use of Superintendents, Overseers and Fixers in Woolen Mills. -«LflWS0N'S>* REED TABLE. COPYRIGHTED. This valuable table gives, at a glance, the width in inches of any warp in any given reed from S to 20 1-2 reed inclusive, and shows each and every reed that can be used for any desir- ed width of cloth. Sent by Mail Prepaid, and Securely Wrapped, on Receipt of One Dollar. WALTER U. LAWSON, Box 227, LOWELL, MASS. 128 TOLHURST MACHINE WORKS, • TROY, 1ST. Y. HYDRO EXTRACTORS FOR KNIT GOODS, . ' Yarn, Wool and other Loose Material. Also for Goods which have been treated with Acid, &c, &c. ROLL EXTRACTORS For Extracting Water from Worsted Fabrics, and all Goods with a "Cloth Finish," while upon the Steaming or Boiling Rolls. dSP These Machines are especially adapted for the purposes mentioned, and ARE ACKNOWLEDGED THE BEST IN THE MARKET. V 571" **