Textiles, for Commercial, Industrial, and Domestic Arts Schools: Also Adapted to Those Engaged in Wholesale and Retail Dry Goods, Wool, Cotton, and Dressmaker's Trades
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Textiles, for Commercial, Industrial, and Domestic Arts Schools - William H. Dooley
William H. Dooley
Textiles, for Commercial, Industrial, and Domestic Arts Schools
Also Adapted to Those Engaged in Wholesale and Retail Dry Goods, Wool, Cotton, and Dressmaker's Trades
Published by Good Press, 2022
goodpress@okpublishing.info
EAN 4057664640635
Table of Contents
PREFACE
TEXTILES
CHAPTER I
FIBERS
CHAPTER II
WOOL SORTING
CHAPTER III
WOOL SUBSTITUTES AND WASTE PRODUCTS
CHAPTER IV
WORSTED YARNS
CHAPTER V
WOOLEN YARN
CHAPTER VI
WEAVING
CHAPTER VII
DYEING AND FINISHING
CHAPTER VIII
WOOLEN AND WORSTED FABRICS
CHAPTER IX
COTTON
CHAPTER X
MANUFACTURE OF COTTON YARN
CHAPTER XI
THREAD AND COTTON FINISHING
CHAPTER XII
KNITTING
CHAPTER XIII
LACE
LACE TERMS DEFINED
CHAPTER XIV
COTTON FABRICS
CHAPTER XV
FLAX
MANUFACTURED LINENS
CHAPTER XVI
HEMP
CHAPTER XVII
SILK
CHAPTER XVIII
PRINCIPAL SILK FABRICS
CHAPTER XIX
ARTIFICIAL SILK
CHAPTER XX
SUBSTITUTES FOR COTTON
APPENDIX
History of Textiles
History of the Organization of Textile Industries
History of Manufacturing
History of Lace
EXPERIMENTS
Experiment 1—Construction of Cloth
Experiment 2—Plain or Homespun Weave
Experiment 3—Twill Weave
Experiment 4—Comparison of Plain and Twill Weave
Experiment 5—Pile Weave
Experiment 6—Other Classes of Weave
Experiment 7—Fibers
Experiment 8—Wool Fiber
Experiment 9—Mohair Fiber
Experiment 10—Cotton Fiber
Experiment 11—Silk Fiber
Experiment 12—Linen Fiber
Experiment 13—Carding
Experiment 14—Drawing and Spinning
Experiment 15—Gilling and Combing
Experiment 16—Raw Wool to Yarn
Experiment 17—Difference between Woolen and Worsted Yarn
Experiment 18—Burling and Mending
Experiment 19—Removal of Stains
Experiment 20—Dyeing Wool
Experiment 21—Dyeing Cotton
Experiment 22—Weighting Silk.—Affinity of Metallic Salts for Silk
Experiment 23—Dyeing Silk
Experiment 24—Test to Distinguish Piece-Dyed from Yarn-Dyed Fabric
Experiment 25—Test to Distinguish Dyed from Printed Fabrics
Experiment 26—Bleaching by Sulphur Dioxide
Experiment 27—Bleaching by Bleaching Powder
Experiment 30—Determining Style of Weave
Experiment 31—Determining the Size of Yarn
Experiment 32—Test for Twist in Yarn
Experiment 33—Determining the Direction of Warp and Filling
Experiment 34—Determining the Density of a Fabric
Experiment 35—Determining Weight
Experiment 36—Determining Shrinkage
Experiment 37—Test of Fastness of Color under Washing
Experiment 38—Test of Fastness of Color under Friction
Experiment 39—Test of Fastness of Color against Rain
Experiment 40—Test of Fastness of Color in Sunlight
Experiment 41—Test of Fastness of Color to Weather, Light, and Air
Experiment 42—Test of Fastness of Color against Street Mud and Dust
Experiment 43—Testing Rubberized Fabrics
Experiment 44—Test for Vegetable and Animal Fiber
Experiment 45—Difference between Cotton and Linen Fabrics
Experiment 46—Test to Distinguish Artificial Silk from Silk
Experiment 47—Test to Distinguish Silk from Wool
Experiment 48—Test to Distinguish Cotton from Linen
Experiment 49—Test of Fabric to Withstand Ironing and Pressing
Experiment 50—Test of Fabric to Withstand Perspiration
Experiment 51—Test for Determining Dressing
Experiment 52—Testing the Strength of Cloth
Experiment 53—Characteristics of a Knitted Fabric
Experiment 54—Experiment to Illustrate Imperfections in Hosiery
Experiment 55—Characteristics of a Crochet Fabric
Experiment 56—Characteristics of a Good Piece of Cotton Cloth
Experiment 57—Characteristics of a Good Piece of Woolen Cloth
Experiment 58—Characteristics of a Good Piece of Worsted Cloth
Experiment 59—Characteristics of a Good Silk Fabric
Experiment 60—How to Determine the Count of Yarn in Cloth
Experiment 61—Study of Fabrics
Experiment 62—How to Examine a Fabric
SOURCES OF SUPPLY
Catalogues of Cotton Machinery
Standard Textile Papers
Wool, Cotton, and Silk Samples
Woolen Yarns
Catalogue of Woolen and Worsted Machinery
Knitting Machinery
INDEX
ADVERTISEMENTS
Elementary Science.
Science.
Mathematics.
Drawing and Manual Training.
Higher English.
Monographs on English.
Heath’s English Classics.
COTTON PLANT
PREFACE
Table of Contents
The author established and since its inception has been in charge of the first industrial school for boys and girls in Massachusetts. At an early date he recognized the need of special text-books to meet the demand of young people who are attending vocational schools. There are plenty of books written on textiles for technical school students and advanced workers. But the author has failed to find a book explaining the manufacture and testing of textiles for commercial, industrial, domestic arts, and continuation schools, and for those who have just entered the textile or allied trades. This book is written to meet this educational need. Others may find the book of interest, particularly the chapters describing cotton, woolen, worsted, and silk fabrics.
The author is under obligations to Mr. Franklin W. Hobbs, treasurer of the Arlington Mills, for permission to use illustrations and information from literature published by the Arlington Mills; to Mr. S. H. Ditchett, editor of Dry Goods Economist, for permission to use information from his publication, Dry Goods Encyclopedia
; to the editor of the Textile Mercury; to Frank P. Bennett, of the American Wool and Cotton Reporter, for permission to use information from Cotton Fabrics Glossary
; and to the instructors of the Lawrence Industrial School for valuable information. In addition, information has been obtained from the great body of textile literature, which the author desires to acknowledge.
TEXTILES
Table of Contents
CHAPTER I
FIBERS
Table of Contents
All the materials used in the manufacture of clothing are called textiles and are made of either long or short fibers. These fibers can be made into a continuous thread. When two different sets of threads are interlaced, the resulting product is called cloth.
The value of any fiber for textile purposes depends entirely upon the possession of such qualities as firmness, length, curl, softness, elasticity, etc., which adapt it for spinning. The number of fibers that possess these qualities is small, and may be classified as follows:
Animal Fibers: Wool, Silk, Mohair.
Vegetable Fibers: Cotton, Flax, Jute, Hemp, etc.
Mineral Fibers: Asbestos, Tinsel, and other metallic fibers.
Remanufactured Material: Noils, Mungo, Shoddy, Extract, and Flocks.
Artificial Fibers: Spun Glass, Artificial Silk, and Slag Wool.
The Structure of Wool. A large part of the people of the world have always used wool for their clothing. Wool is the soft, curly covering which forms the fleecy coat of the sheep and similar animals, such as the goat and alpaca. Wool fiber when viewed under the microscope is seen to consist roughly of three parts:
1st. Epidermis, or outer surface, which is a series of scales lying one upon the other.
2d. Cortex, or intermediate substance, consisting of angular, elongated cells, which give strength to the wool.
3d. Medulla, or pith of the fiber.
WOOL FIBER
Highly magnified
Difference between Wool and Hair. Not all animal fibers are alike. They vary in fineness, softness, length, and strength, from the finest Merino wool to the rigid bristles of the wild boar. At just what point it can be said that the animal fiber ceases to be wool and becomes hair, is difficult to determine, because there is a gradual and imperceptible gradation from wool to hair.[1] The distinction between wool and hair lies chiefly in the great fineness, softness, and wavy delicacy of the woolen fiber, combined with its highly serrated surface—upon which the luster of the wool depends.
Characteristics of Wool. The chief characteristic of wool is its felting or shrinking power. This felting property from which wool derives much of its value, and which is its special distinction from hair, depends in part upon the kinks in the fiber, but mainly upon the scales with which the fiber is covered. These scales or points are exceedingly minute, ranging from about 1,100 to the inch to nearly 3,000. The stem of the fiber itself is extremely slender, being less than one thousandth of an inch in diameter. In good felting wools the scales are more perfect and numerous, while inferior wools generally possess fewer serrations, and are less perfect in structure.
In the process of felting the fibers become entangled with one another, and the little projecting scales hook into one another and hold the fibers closely interlocked. The deeper these scales fit into one another the closer becomes the structure of the thread.
Classification of Wool. The various kinds of wool used in commerce are named either from the breed of the sheep or from the country or locality in which the sheep are reared. Thus we get Merino wool from Merino sheep, while English, American, and Australian wools are named from the respective countries. As the result of cross breeding of different sheep in different parts of the world, under different climatic conditions, physical surroundings, and soil, there exist a great many varieties of wool. The wool of commerce is divided into three great classes: (1) Short wool or clothing wool (also called carding wool), seldom exceeding a length of two to four inches; (2) long wool or combing wool, varying from four to ten inches; (3) carpet and knitting wools, which are long, strong, and very coarse.
The distinction between clothing or carding wools on the one hand, and combing wools on the other, is an old one. Combing wools are so called because they are prepared for spinning[2] into yarn by the process of combing
—that is, the fibers are made to lie parallel with one another preparatory to being spun into thread. Carding wools—made to cross and interlace and interlock with one another—are shorter than combing wools, and in addition they possess to a much greater degree the power of felting—that is, of matting together in a close compact mass. Combing wools, on the other hand, are not only longer than the carding wools, but they are also harder, more wiry, and less inclined to be spiral or kinky. It must be understood, however, that under the present methods of manufacture, short wools may be combed and spun by the French method of spinning just as the long wools are combed and spun by the Bradford or English system.
Carpet and knitting wools are the cheapest, coarsest, and harshest sorts of wools. They come principally from Russia, Turkey, China, Greece, Peru, Chili, etc., and from the mountain districts of England and Scotland. Carpet wools approach more nearly to hair than other wools. The only staple of this class produced in the United States is grown on the original Mexican sheep of the great Southwest. Few of these Mexican sheep are left, for they have been improved by cross breeding, but they constitute the foundation stock of most of our Western flocks, which now produce superior clothing and combing wool.
Sheep Shearing. In order to get an idea of the importance of the sheep industry in the United States, one must take a glance at its condition in the big states of the West. Wyoming has more than 4,600,000 sheep within its borders. Montana, which held the record until 1909, has 4,500,000 sheep. Then comes Idaho with 2,500,000, Oregon with 2,000,000, and so on down the list until the nation’s total reaches 40,000,000 sheep, four-fifths of which are west of the Missouri river.
SHEEP SHEARING
To harvest the wool from such an enormous number of backs is a task that calls for expert shearers, men who can handle the big shears of the machine clippers with a skill that comes from long practise. The shearing must be done at the right time of the year. If the wool is clipped too early, the sheep suffer from the cold; if the shearing comes too late, the sheep suffer from intense heat, and in either case are bound to lose weight and value.
To meet the exacting conditions a class of men has risen expert in the sheep-shearing business. These shearers begin work in southern and middle California, Utah, etc. Another month finds them busy in the great sheep states of Wyoming, Montana, Idaho, and Oregon, where they find steady employment until July, when they go to the ranges of Canada. In this way the shearers keep busy nearly all the year, and at high wages.
The Mexicans are particularly expert with the hand shears, though this form of clipping is being done away with, owing to the installation of power plants for machine shearing. These plants are installed at various points on the great sheep ranges. Long sheds are erected and shafting extends down both sides of the shearing place. Twenty or more shearers will be lined up in one of these sheds, each man operating a clipping machine connected with the shafting. The sheep are brought in from the range in bands of 2,500 or more, and are put in the corrals adjoining the shearing sheds. Then they are driven down chutes to the shearers.
A shearer reaches into a small corral behind him and pulls out a sheep. With a dexterous fling the animal is put in a sitting posture between the shearer’s knees, and then the steel clippers begin clipping off the wool. The machine-shearing saves much wool, as it gets closer to the skin of the sheep and shears more evenly. In fact, some sheep owners say that the increased weight of their fleeces at each shearing is enough to pay the extra expense of running a power plant.
As fast as the sheep are turned out by the shearers they are run along a narrow chute and each one is branded. The branding mark is usually a letter painted on the back of the sheep so that it can be plainly seen when they are coming through a chute. The mark remains on the fleece and is always easily distinguished.
Fleece. There is a great variation in the weight of fleeces. Some sheep, such as those on the best ranges in Oregon, Montana, and Wyoming, will average an eight-pound fleece full of natural oil, while sheep from the more sterile alkaline ranges of New Mexico will not average much more than five pounds of wool.
The shearing season on the plains is much like the threshing season in agricultural communities. With a crew of first-class shearers working in a shearing shed, it is not long until the floor is a sea of wool. Boys are kept busy picking up the fleeces, tying them into compact bundles, and throwing them to the men who have been assigned to the task of filling the wool sacks. These sacks, which hold about 400 pounds, are suspended from a wooden framework, and as fast as the fleeces are thrown in, they are tramped down until the sacks will not hold a pound more. Most of the sacks are shipped to warehouses in such wool centers as Casper, Wyoming, or Billings, Montana, the latter place being the greatest wool shipping center in the world. Here they are sold to Eastern buyers, who examine the clips at their leisure and make their bids.
Value of Wool Business. Some idea of the fortunes at stake in the wool business can be gathered from the fact that the total wool product of the country in 1909 was valued at $78,263,165. It is expected that the returns from the wool clip in a fairly good year will pay all a sheepman’s running expenses, such as hire of herders, cost of shearing, etc. He then has the sale of his lambs as clear profit. Enormous fortunes are being made in the sheep business in the west, owing to the high price of wool and mutton.
Saxony and Silesian Wool. Among wools of all classes the Saxony and Silesian take the first place, and for general good qualities, fineness, and regularity of fiber, they are unequalled. The fiber is short in staple, possesses good felting properties, and is strong and elastic. This wool is used chiefly in the manufacture of cloths where much milling[3] is required, such as superfines and dress-faced fabrics.
Australian Wools. Australia furnishes wools of a superior character, and some of the choicest clips rival the Saxony and Silesian wools. They are used both for worsted[4] and woolen yarns. They are generally strong and of an elastic character, possess numerous serrations, and are of good color, with good felting properties. The principal Australian wools are Port Philip, Sydney, and Adelaide wools. These are the best brands imported from that country.
Port Philip Wool. Port Philip wool is suitable for either worsted or woolen yarns. The fiber is not quite as fine as Saxony, but it makes a good thread, is fairly sound in staple, and is of good length and color. It is very wavy and serrated. The longest and best of this wool is used for the very finest worsted yarns, and will spin up to 130’s counts.[5] The sheep are descendants of the original Spanish Merino. Cross bred Port Philip wool is from the same Merino sheep crossed with Leicesters, which yield a medium quality fleece of sound fiber and good quality for spinning counts from 40’s to 56’s. The yarn has a bright, clear appearance.
Sydney Wools. Sydney wools are moderately fine in fiber and of medium length. They are rather deficient in strength, uneven in color, and often contain yellow locks which make them undesirable when required for dyeing light shades. They are used for nearly the same purpose as Port Philip wools, but do not spin quite as far in worsted yarns, nor are they equal in milling qualities.
Adelaide Wool. Adelaide wool has a reputation for sound Merinos, the average quality being a little lower than for the Port Philip and Sydney wools. Its fiber is moderately fine, but not of uniform length; its color is not so good, and it contains a large amount of yolk.[6] Adelaide wool is used for worsted dress goods, weft (filling)[7] yarn up to 60’s, and certain worsted warps.[7] It is used for medium fancy woolens.
Van Wool from Tasmania. The climate of this island is well suited to the growing of wool, and produces excellent qualities, fine in fiber, of good length, and strong in the staple, which will spin as high counts as 70’s and 80’s worsted. This wool is useful for mixing with other good wools. Its color is very white, which makes it a useful wool for dyeing light shades. Its milling properties are good, and the shorter sorts are suitable for woolens.
New Zealand Wools are very supple, which make them valuable to the spinner. These wools are suitable for almost all classes of Merino and crossbred yarns. They are of good length, sound staple, have good felting properties, and are of good color. They are useful for blending with mungo and shoddy, to give to these remanufactured materials that springy, bulky character which they lack.
Cape Wools. Cape Colony and Natal produce merino wool that is somewhat short in staple, rather tender, and less wavy than some other wools. The sheep are not so well cared for, and are fed on the leaves of a small shrub. The absence of grass leaves the ground very sandy, and this makes the fleece heavy and dirty. Its color is fair, but it lacks elasticity. It is used chiefly to cheapen blends[8] of 60’s top.[9] The short wool is combed for thick counts for weft and hosiery, and is also used for shawls and cloths where felting is not an essential feature.
MERINO SHEEP
Wools from South America. These wools are of the same standard of excellence as the Australian wools, but they are generally deficient in strength and elasticity. Buenos Ayres and Montevideo wools are fairly fine in fiber, but lack strength and elasticity, and are deficient in milling properties; they are also burry. The climate suits the sheep well, and the feed is good, but the careless methods of classing and packing have earned for these wools a poor reputation that is well deserved.
The best 60’s wool is combed in oil, but a large portion of the shorter is combed and used in thick counts,—20’s to 36’s worsted for the hosiery trade.
Russian Wool. The staple of this is generally strong, and the fibers are of a medium thickness; the color is milky white. It is useful to blend with Australian or other good wools. It produces a good yarn, and is very often used in the fancy woolen trade and in fabrics that require to be finished in the natural color.
Great Britain Wools. These may be divided into three groups: (1) long wools, of which the Lincoln and Leicester are typical examples; (2) short wools, which include Southdown, Shropshire, Suffolk, and others; and (3) wool from the mountain or hilly breeds of sheep, such as the Cheviot, Scotch Blackface, Shetland, Irish, and Welsh.
Lincoln Wool is a typical wool obtained from the long wool sheep, and noted for its long, lustrous fiber, which is silky and strong. The staple varies from ten to eighteen inches in length, and the average fleece will yield from ten to fourteen pounds in weight.
Leicester Wool has a somewhat finer fiber than Lincoln. It is a valuable wool, of good color, uniform and sound in staple, curly, with good, bright luster and no dark hairs. While luster wools are grown extensively in England, they also grow in Indiana and Kentucky, and are commonly known in the trade as braid wool.
Southdown is one of the most valuable of short staple wools. It possesses a fine hair, is close and wavy, and fairly sound in staple, but rather deficient in milling qualities. The shorter varieties are carded and made into flannels and other light fabrics, while the longer qualities are used in the production of worsted goods. The weight of a Southdown fleece averages from four to five pounds.
WOOL MARKET AT BUENOS AYRES
Shropshiredown wool is of good quality, with strong, fine, lustrous fiber, of good length. It resembles Southdown, but is not as lustrous as mohair, the natural colors being either white, black, brown, or fawn. It is used chiefly in the manufacture of dress goods.
Cashmere Wool is the fine, woolly, extremely soft, white or gray fur of the Cashmere goat which is bred in Thibet. There are two kinds of fiber obtained: one, which is really the outer covering, consists of long tufts of hair; underneath this is the Cashmere wool of commerce, a soft, downy wool of a brownish-gray tint, with a fine, silky fiber. It is used for making the costly oriental (Indian) shawls and the finest wraps.
The Norfolkdown and Suffolkdown Wools are fairly fine in fiber and soft, but slightly deficient in strength and elasticity.
Cheviot Wool may be taken as representative of the hilly breeds of sheep. It is an average wool, with staple of medium length, soft, and with strong and regular fiber; it is of a good, bright color, and possesses desirable milling properties, being used for both woolen and worsted, but chiefly in the fancy woolen trade. The average weight of the fleece is about 4½ pounds. The black-faced or Highland breed yields a medium wool, coarser and more shaggy than the Cheviot, and varying much in quality. It is almost all used in the production of rugs, carpets, and blankets.
Welsh Wools lack waviness and fineness of fiber. They are chiefly used for flannels.
Shetland Wools are similar in character to Welsh wools, but slightly finer in fiber and softer. They are used in the manufacture of knitted goods, such as shawls and wraps. They lack felting properties.
Irish Wools possess a strong, thick hair of moderate length and fine color. They are similar in many respects to the Welsh wools, and are often classed with them. They are used in the production of low and medium tweeds—fancy woolen cloths not requiring small yarns or milling qualities.
Mohair is a lustrous wool obtained from the Angora goat, which derives its name from the district of Asia Minor from which it comes. These animals have also been successfully bred in Spain and France. The hair is pure white, fine, wavy, and of good length, and possesses a high luster. It is used in making plushes, velvets, astrakhans, and curled fabrics, also half silk goods and fine wraps.
Alpaca Wool is the fleece of the Peruvian sheep, which is a species of llama. The staple is of good length and soft, but is not quite as lustrous as mohair, the natural colors being either white, black, brown, or fawn. It is used chiefly in the manufacture of dress goods.
How Wool is Marketed. The bulk of the wool of commerce comes into the market in the form of fleece wool, the product of a single year’s growth, and cut from the body of the animal usually in April or May. The first and finest clip, called lamb’s wool, may be taken from