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(Redirected from Spun yarn) Long continuous length of interlocked fibres For other uses, see Yarn (disambiguation).
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Yarn
Balls of yarn
A visual of twisted yarn

Yarn is a long continuous length of interlocked fibres, used in sewing, crocheting, knitting, weaving, embroidery, ropemaking, and the production of textiles. Thread is a type of yarn intended for sewing by hand or machine. Modern manufactured sewing threads may be finished with wax or other lubricants to withstand the stresses involved in sewing. Embroidery threads are yarns specifically designed for needlework. Yarn can be made of a number of natural or synthetic materials, and comes in a variety of colors and thicknesses (referred to as "weights"). Although yarn may be dyed different colours, most yarns are solid coloured with a uniform hue.

Etymology

The word "yarn" comes from Middle English, from the Old English gearn, akin to Old High German garn, "yarn", Dutch garen, Ancient Greek χορδή, "string", and Sanskrit hira, "band".

History

The human production of yarn is known to have existed since the Stone Age and earlier prehistory, with ancient fiber materials developing from animal hides, to reeds, to early fabrics. Cotton, wool, and silk were the first materials for yarn, and textile trade contributed immensely to the ancient global economy. In 2011, the Bangladesh University of Textiles established a specialized Department of Yarn Engineering, focusing on the advanced techniques of transforming textile fibers into yarn.

Materials

Yarn can be made from a number of natural or synthetic fibers, or a blend of natural and synthetic fibers.

Natural fibers

Main article: Natural fiber

Cotton

Flyer spinning of cotton

The most common plant fiber is cotton, which is typically spun into fine yarn for mechanical weaving or knitting into cloth.

Silk

Silk is a natural protein fiber, some forms of which can be woven into textiles. The protein fiber of silk is composed mainly of fibroin and is produced by the larvae of the moth Bombyx mori. Silk production is thought to have begun in China and silk thread and cloth manufacture was well-established by the Shang dynasty (1600–1050 BCE).

Linen

Linen is another natural fiber with a long history of use for yarn and textiles. Linen fibers are derived from the flax plant.

Other plant fibers

Manila hemp warp yarns being prepared for weaving in a modern textile factory

Other plant fibers which can be spun include bamboo, hemp, maize, nettle, and soy fiber.

Animal fibers

The most common spun animal fiber is wool harvested from sheep. As long fibers make better yarn, sheep have been bred over time to produce longer fibers. This increases the need for shearing to prevent pests and overheating.

Other animal fibers used include alpaca, angora, mohair, llama, cashmere, and silk. More rarely, yarn may be spun from camel, yak, possum, musk ox, vicuña, cat, dog, wolf, rabbit, bison, or chinchilla hair, as well as turkey or ostrich feathers.

Synthetic fibers

Main article: Synthetic fiber

Some examples of synthetic fibers that are used as yarn are nylon, acrylic fiber, rayon, and polyester. Synthetic fibers are generally extruded in continuous strands of gel-state materials. These strands are drawn (stretched), annealed (hardened), and cured to obtain properties desirable for later processing.

Synthetic fibers come in three basic forms: staple, tow, and filament. Staple is cut fibers, generally sold in lengths up to 120 mm. Tow is a continuous "rope" of fibers consisting of many filaments loosely joined side-to-side. Filament is a continuous strand consisting of anything from one filament to many. Synthetic fiber is most often measured in a weight per linear measurement basis, along with cut length. Denier and Dtex are the most common weight to length measures. Cut-length only applies to staple fiber.

Filament extrusion is sometimes referred to as "spinning," but most people equate spinning with spun yarn production.

Yarn from recycled materials

T-shirt yarn is a recycled yarn made from the same fabric as is used in T-shirts and other clothes. It is often made from the remainder fabric of clothing manufacture, and therefore is considered a recycled and eco-friendly product. It can also be made at home out of used clothing. The resulting yarn can be used in knitted or crocheted items.

Comparison of material properties

A fully restored Derby Doubler, winding a sliver lap ready for finisher carding at Quarry Bank Mill in the UK

In general, natural fibers tend to require more careful handling than synthetics because they can shrink, felt, stain, shed, fade, stretch, wrinkle, or be eaten by moths more readily, unless special treatments such as mercerization or super washing are performed to strengthen, fix color, or otherwise enhance the fiber's own properties.

Some types of protein yarns (i.e., hair, silk, feathers) may feel irritating to some people, causing contact dermatitis, hives, or wheezing. These reactions are likely a sensitivity to thicker and coarser fiber diameter or fiber ends. In fact, contrary to popular belief, wool allergies are practically unknown. According to a study reviewing the evidence of wool as an allergen conducted by Acta Dermato-Venereologica, contemporary superfine or ultrafine Merino wool with their reduced fibre diameters do not provoke itch, are well tolerated and in fact benefit eczema management. Further studies suggest that known allergens applied during textile processing are minimally present in wool garments today given current industry practices and are unlikely to lead to allergic reactions.

When natural hair-type fibers are burned, they tend to singe and have a smell of burnt hair; this is because many, like human hair, are protein-derived. Cotton and viscose (rayon) yarns burn as a wick. Synthetic yarns generally tend to melt, though some synthetics are inherently flame-retardant. Noting how an unidentified fiber strand burns and smells can assist in determining if it is natural or synthetic, and what the fiber content is.

Both synthetic and natural yarns can pill. Pilling is a function of fiber content, spinning method, twist, contiguous staple length, and fabric construction. Single ply yarns or using fibers like merino wool are known to pill more due to the fact that in the former, the single ply is not tight enough to securely retain all the fibers under abrasion, and the merino wool's short staple length allows the ends of the fibers to pop out of the twist more easily.

Yarns combining synthetic and natural fibers inherit the properties of each parent, according to the proportional composition. Synthetics are added to lower cost, increase durability, add unusual color or visual effects, provide machine washability and stain resistance, reduce heat retention, or lighten garment weight.

Structure

Main article: Spinning (textiles)
A Spinning Jenny, spinning machine which was significant in the beginning of the Industrial Revolution
S- and Z-twist yarn

Spun yarn

Spun yarn is made by twisting staple fibres together to make a cohesive thread, or "single". Twisting fibres into yarn in the process called spinning can be dated back to the Upper Paleolithic, and yarn spinning was one of the first processes to be industrialized. Spun yarns are produced by placing a series of individual fibres or filaments together to form a continuous assembly of overlapping fibres, usually bound together by twist. Spun yarns may contain a single type of fibre, or be a blend of various types. Combining synthetic fibres (which can have high strength, lustre, and fire retardant qualities) with natural fibres (which have good water absorbency and skin comforting qualities) is very common. The most widely used blends are cotton-polyester and wool-acrylic fibre blends. Blends of different natural fibres are common too, especially with more expensive fibres such as alpaca, angora and cashmere.

Yarn is selected for different textiles based on the characteristics of the yarn fibres, such as warmth (wool), light weight (cotton or rayon), durability (nylon is added to sock yarn, for example), or softness (cashmere, alpaca).

Yarn is composed of twisted strands of fiber, which are known as plies when grouped together. These strands of yarn are twisted together (plied) in the opposite direction to make a thicker yarn. Depending on the direction of this final twist, the yarn will have either s-twist (the threads appear to go "up" to the left) or z-twist (to the right). For a single ply yarn, the direction of the final twist is the same as its original twist. The twist direction of yarn can affect the final properties of the fabric, and combined use of the two twist directions can nullify skewing in knitted fabric.

The mechanical integrity of yarn is derived from frictional contacts between its composing fibers. The science behind this was first studied by Galileo.

Carded and combed yarn

Combed yarns are produced by adding another step of yarn spinning, namely combing, which aligns the fibres and removes the short fibres carried over from the previous step of carding. Combed yarn results in superior-quality fabrics. In comparison to carded yarns, this particular yarn is slightly more expensive, because the weaving is a long, consuming process. Combining separates small fibres from elongated fibres, in which this procedure makes the yarn softer and smoother.

Hosiery yarn

Hosiery yarns are used in the manufacturing of knitted fabrics. Since the knitted materials are more delicate than woven materials; hence hosiery yarns are made 'softer' with fewer twists per inch than their woven counterparts. Hosiery yarn comes from a separate spinning process (melt spinning), and is used with circular knitting machines to form fabric.

Open-end yarn

Open-end yarn is produced by open-end spinning without a spindle. The method of spinning is different from ring spinning. In open-end yarn, there is no roving frame stage. Sliver from the card goes into the rotor, is spun into yarn directly. Open-end yarn can be produced from short fibers. Open-end yarns are different from ring yarns. Open-end yarns are limited to coarser counts.

Novelty yarn

Main article: Novelty yarns

Novelty yarns or complex yarns are yarns with special (fancy) effects introduced during spinning or plying. One example is slub yarns, yarn with thick or thin sections alternating regularly or irregularly. In a similar manner, creating deliberate unevenness, additions or injections of neps or metallic or synthetic fibers (along with natural fibers) in spinning creates novelty yarns.

Filament yarn

Filament yarn consists of filament fibres (very long continuous fibres) either twisted together or only grouped together. Thicker monofilaments are typically used for industrial purposes rather than fabric production or decoration. Silk is a natural filament, and synthetic filament yarns are used to produce silk-like effects.

Texturized yarn

Texturized yarns are made by a process of air texturizing filament yarns (sometimes referred to as taslanizing), which combines multiple filament yarns into a yarn with some of the characteristics of spun yarns. They are synthetic continuous filaments that are modified to impart special texture and appearance. It was originally applied to synthetic fibers to reduce transparency, slipperiness and increase warmth, absorbency and makes the yarn more opaque. It was used to manufacture a variety of textile products: knitted underwear and outer wear, shape-retaining knitted suits, overcoats. They also were used in the production of artificial fur, carpets, blankets, etc.

Colour

Yarn comes in many colors.

Yarn may be used undyed, or may be coloured with natural or artificial dyes. Most yarns have a single uniform hue, but there is also a wide selection of variegated yarns:

  • Heathered or tweed: yarn with flecks of different coloured fibre
  • Ombré: variegated yarn with light and dark shades of a single hue
  • Multicoloured: variegated yarn with two or more distinct hues (a "parrot colourway" might have green, yellow and red)
  • Self-striping: yarn dyed with lengths of colour that will automatically create stripes in a knitted or crocheted object
  • Marled: yarn made from strands of different-coloured yarn twisted together, sometimes in closely related hues

Each of these different colours and styles are achieved through a process called yarn dyeing. There are many different methods of yarn dyeing: package dyeing, skein dyeing, space dyeing, warp beam dyeing, and more.

  • Package Dyeing: This is the most commonly used method. This is when yarn is already spun up in bulk and then lowered into a chamber filled with dye. When the yarn is done absorbing the dye, it is removed from the cylindrical chamber to dry.
  • Skein Dyeing: This is the process of when yarn is laid loosely in skeins or hanks. They are then laid on top of a bar and submerged into what is called a dyebath.
  • Space Dyeing: This method is used to achieve the multi-colored effect. This method is achieved by taking sections of yarn and dipping them into different colours. After dipping one section into a colour, a chemical called mordant is used to permanently keep that color on the yarn so that the next color will not bleed into the prior color.
  • Warp Beam Dyeing: This is a larger version of package dyeing; however, it is only used in the manufacture of woven fabrics.
A comparison of yarn weights (thicknesses): the top skein is aran weight, suitable for knitting a thick sweater or hat. The manufacturer's recommended knitting gauge appears on the label: 5 to 7 stitches per inch using size 4.5 to 5.1 mm needles. The bottom skein is sock weight, specifically for knitting socks. Recommended gauge: 8 to 10 stitches per inch, using size 3.6 to 4.2 mm needles.
Spool of all purpose sewing thread. Closeup shows texture of 2-ply, Z-twist, mercerized cotton with polyester core.
Yarn drying after being dyed in the early American tradition, at Conner Prairie living history museum

Weight

Main article: Yarn weight

Yarn quantities for handcrafts are usually measured and sold by weight in ounces (oz) or grams (g). Common sizes include 25g, 50g, and 100g skeins. Some companies also primarily measure in ounces with common sizes being three-ounce, four-ounce, six-ounce, and eight-ounce skeins. Textile measurements are taken at a standard temperature and humidity because variations in heat and humidity can cause fibers to absorb different amounts of moisture from the air, thus increasing the measured weight of the yarn without adding any fiber material. The actual length of the yarn contained in a ball or skein can vary due to the inherent heaviness of the fibre and the thickness of the strand; for instance, a 50 g skein of lace weight mohair may contain several hundred metres, while a 50 g skein of bulky wool may contain only 60 metres.

Craft yarn comes in several thicknesses or weights. This is not to be confused with the measurement and weight listed above. The Craft Yarn Council of America promotes a standardized industry system for measuring yarn weight, where weights are numbered from 0 (finest) to 7 (thickest). Each weight can be described by a number and name: Size 0 yarn is called Lace, size 1 is Super Fine, size 2 is Fine, size 3 is Light, size 4 is Medium, size 5 is Bulky, size 6 is Super Bulky, and size 7 is Jumbo.

Each weight also has several commonly used but unregulated terms associated with it. However, this naming convention is more descriptive than precise; fibre artists disagree about where on the continuum each lies, and the precise relationships between the sizes. These terms include: fingering, sport, double-knit (or DK), worsted, aran (or heavy worsted), bulky, super-bulky, and roving.

Another measurement of yarn weight, often used by weavers, is wraps per inch (WPI). The yarn is wrapped snugly around a ruler and the number of wraps that fit in an inch are counted.

Labels on yarn for handicrafts often include information on gauge, which can also help determine yarn weight. Gauge, known in the UK as tension, is a measurement of how many stitches and rows are produced per inch or per cm on a specified size of knitting needle or crochet hook. The proposed standardization uses a four-by-four inch/ten-by-ten cm knitted stockinette or single crocheted square, with the resultant number of stitches across and rows high made by the suggested tools on the label to determine the gauge.

In Europe, textile engineers often use the unit tex, which is the weight in grams of a kilometre of yarn, or decitex, which is a finer measurement corresponding to the weight in grams of 10 km of yarn. Many other units have been used over time by different industries.

Yarn skeins

There are many different ways in which yarn is wound, including hanks, skeins, donut balls, cakes, and cones.

Hank

A hank of yarn is a looped bundle of yarn, similar to how wire is typically sold. The yarn is usually tied in two places directly opposite each other to keep the loops together and to keep them from tangling. Hanks are a preferred method of fastening yarn for many yarn sellers and yarn-dyers due to its ability to more widely display the qualities of the fiber. It is often wound using a swift, a standing contraption that holds a yarn hank without obstruction and spins on a central axis to facilitate yarn ball winding There are two subtypes of hanks: twisted and folded. A twisted hank is a hank that has been twisted into a rope braid. A folded hank is a hank that has been folded in half and wrapped in a label for retail purposes.

Skein

Skeins are one of the most common types of yarn ball. Although skeins are technically described as yarn that has been wound into an oblong shape, the word "skein" is used generically to describe any ball of yarn. Many large-scale yarn retailers like Lion brand and parent companies like Yarnspirations sell their yarn in skeins. Unlike other types of yarn balls, a skein allows you to access both ends of the yarn. The yarn end in the inside of the skein is called a center pull. One major complaint of center pull bullet skeins is that the inside yarn end is not easily found, and often is pulled out of the skein in a jumble of tangled yarn called "yarn barf". There are two types of skeins: a pull skein, which is more rectangular in shape, and a bullet skein, which is rounder.

Microscopic aspect of selected yarns

Below are the images taken by a digital USB microscope. These show how the yarn looks in different kinds of clothes when magnified.

  • Woolen shawl Woolen shawl
  • Woolen shawl under microscope Woolen shawl under microscope
  • Cloth pencil box Cloth pencil box
  • Cloth pencil box under microscope Cloth pencil box under microscope
  • Jeans Jeans
  • Jeans under microscope Jeans under microscope
  • Sweatshirt Sweatshirt
  • Sweatshirt under microscope Sweatshirt under microscope

See also

References

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  2. Kadolph, Sara J., ed. (2007) Textiles, 10th edition, Pearson/Prentice-Hall. p. 203. ISBN 0-13-118769-4
  3. Bay, Ann (September 1980). "Spinning Yarns, Telling Tales about Textiles" (PDF). Art to Zoo. Office of Elementary and Secondary Education, Smithsonian Institution – via Smithsonian Learning Lab.
  4. "Department of Yarn Engineering". Bangladesh University of Textiles.
  5. "How yarn is made". Advameg. Archived from the original on 2007-06-16. Retrieved 2007-06-21.
  6. Postrel, Virginia (2020). The Fabric of Civilization: How Textiles Made the World. New York: Basic Books. p. 58. ISBN 9781541617629.
  7. Johnson, Ingrid; Cohen, Allen C.; Sarkar, Ajoy K. (2015-09-24). J.J. Pizzuto's Fabric Science: Studio Access Card. Bloomsbury Publishing USA. ISBN 9781628926583.
  8. Juracek, Judy A. (2000). Soft Surfaces: Visual Research for Artists, Architects, and Designers. W. W. Norton & Company. ISBN 9780393730333.
  9. ^ Haffenden, Vikki; Patmore, Frederica (2019). The Knitting Book: Over 250 Step-by-Step Techniques. New York: DK Publishing. ISBN 9781465482402. Retrieved 6 November 2024.
  10. Doyle, EK; Preston, JWV; McGregor, BA; Hynd, PI (May 17, 2021). "The science behind the wool industry. The importance and value of wool production from sheep". Anim Front. 11 (2): 15–23. doi:10.1093/af/vfab005. PMC 8127695. PMID 34026311.
  11. "Rayon". Time Magazine. 5 (26): 24–25. 1925.
  12. Coburn, Robyn (September 1, 2010). "Crafting for a Greener World: T-shirt yarns". Natural Life Magazine (135): 10–13. Retrieved 19 December 2021.
  13. Holli, Friedland (April 5, 2010). "Knitting with recycled t-shirts". Baltimore Examiner.
  14. Shakespeare, Margaret (September 30, 2015). "20 Things You Didn't Know About...Wool". Discover Magazine. Retrieved 2021-11-25.
  15. ^ Zallmann, M; Smith, P; Tang, M; Spelman, L; Cahill, J; Wortmann, G; Katelaris, C; Allen, K; Su, J (2017). "Debunking the Myth of Wool Allergy: Reviewing the Evidence for Immune and Non-immune Cutaneous Reactions". Acta Dermato Venereologica. 97 (8): 906–915. doi:10.2340/00015555-2655. hdl:10072/355515. PMID 28350041.
  16. "Are you allergic to wool?". www.woolmark.com. Retrieved 2021-11-25.
  17. Kadolph, Sara J., ed. (2007) Textiles, 10th edition, Pearson/Prentice-Hall. p. 197. ISBN 0-13-118769-4
  18. Barber, Elizabeth Wayland (1994) Women's Work:The First 20,000 Years, W. W. Norton. p. 44. ISBN 0393313484
  19. Doran, David; Cather, Bob (2013-07-24). Construction Materials Reference Book. Routledge. ISBN 9781135139216.
  20. "How to Ply Yarn the Simple Way with this Expert Guide | Interweave". Interweave. 2016-11-18. Archived from the original on 2016-12-14. Retrieved 2017-12-05.
  21. Warren, Patrick B.; et al. (13 April 2018). "Why Clothes Don't Fall Apart: Tension Transmission in Staple Yarns". Physical Review Letters. 120 (15): 158001. arXiv:1804.07606. Bibcode:2018PhRvL.120o8001W. doi:10.1103/PhysRevLett.120.158001. PMID 29756870. S2CID 21727156.
  22. American Home Economics Association. Textiles and Clothing Section (1970). Textile handbook. Internet Archive. Washington, American Home Economics Association. p. 30.
  23. Wingate, Isabel Barnum (1979). Fairchild's dictionary of textiles. Internet Archive. New York : Fairchild Publications. p. 298. ISBN 978-0-87005-198-2.
  24. "Hosiery Yarns and the Knitted Fabric". Journal of the Textile Institute Proceedings. 18 (3): P74–P75. 1927-03-01. doi:10.1080/19447012708665800.
  25. Wingate, Isabel Barnum (1979). Fairchild's dictionary of textiles. Internet Archive. New York : Fairchild Publications. p. 425. ISBN 978-0-87005-198-2.
  26. Lawrence, Alexander (2010). Advances in yarn spinning technology. Cambridge: Woodhead Publishing Ltd. pp. 81–261–273–365. ISBN 978-0-85709-021-8. OCLC 798340806.
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  32. ^ "Standard Yarn Weight System | Welcome to the Craft Yarn Council". www.craftyarncouncil.com. Retrieved 2021-10-03.
  33. "Definition of HANK". www.merriam-webster.com. Retrieved 2021-10-03.
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  35. "Hand Weaving Supplies from Weaving Today" (PDF). Handwoven. January–February 1985.

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