Synthetic fibers or synthetic fibres (in British English; see spelling differences) are made by humans through chemical synthesis, as opposed to that are directly derived from life organisms, such as like cotton or fur from animals. They are the result of extensive research by to replicate naturally occurring animal fiber and fiber crop. In general, synthetic fibers are created by extrusion fiber-forming materials through spinnerets, forming a fiber. These are called synthetic or artificial fibers. The word polymer comes from a Greek prefix "poly" which means "many" and suffix "mer" which means "single units". (Note: each single unit of a polymer is called a monomer).
The first synthetic fibres
Nylon was the first commercially successful synthetic thermoplastic polymer. DuPont began its research project in 1927. The first nylon, nylon 66, was synthesized on February 28, 1935, by Wallace Hume Carothers at DuPont's research facility at the DuPont Experimental Station.
The next step was taken by Hilaire de Chardonnet, a French engineer and industrialist, who invented the first artificial silk, which he called "Chardonnet silk". In the late 1870s, Chardonnet was working with Louis Pasteur on a remedy to the epidemic that was destroying French silkworms. Failure to clean up a spill in the darkroom resulted in Chardonnet's discovery of nitrocellulose as a potential replacement for real silk. Realizing the value of such a discovery, Chardonnet began to develop his new product,
Commercial products
The first successful process was developed in 1894 by English chemist Charles Frederick Cross, and his collaborators Edward John Bevan and Clayton Beadle. They named the fiber "
viscose", because the reaction product of
carbon disulfide and
cellulose in basic conditions gave a highly viscous solution of
xanthate.
The first commercial viscose
rayon was produced by the UK company
Courtaulds in 1905. The name "rayon" was adopted in 1924, with "viscose" being used for the viscous organic liquid used to make both rayon and
cellophane. A similar product known as cellulose acetate was discovered in 1865. Rayon and acetate are both artificial fibers, but not truly synthetic, being made from
wood.
Nylon, the first synthetic fiber in the "fully synthetic" sense of that term, was developed by Wallace Carothers, an American researcher at the chemical firm DuPont in the 1930s. It soon made its debut in the United States as a replacement for silk, just in time for the introduction of rationing during World War II. Its novel use as a material for women's stockings overshadowed more practical uses, such as a replacement for the silk in and other military uses like .
The first polyester fiber was patented in Britain in 1928 by the International General Electric company.[Frank Greenaway, 'Whinfield, John Rex (1901–1966)', rev. Oxford Dictionary of National Biography, Oxford University Press, 2004 accessed 20 June 2011] ICI and DuPont went on to produce their own versions of the fiber.
The world production of synthetic fibers was 55.2 million tonnes in 2014.[ Man-Made Fibers Continue To Grow , Textile World]
Descriptions
About half of all fibres are synthetic, with applications in every field of fiber and textile technology. Although many classes of fibers based on synthetic polymers have been evaluated as potentially valuable commercial products, four of them -
nylon,
polyester,
Acrylic fiber and
polyolefin - dominate the market. These four account for approximately 98 percent by volume of synthetic fiber production, with polyester alone accounting for around 60 percent.
Environmental impact
Synthetic fibers are non-biodegradable and may take 200 years or more to decompose, contributing to long-term pollution in
and the environment.
Each laundry cycle involving synthetic garments can release up to 700,000
microplastic fibers, which often enter marine ecosystems and contribute to
microplastic pollution.
Carbon footprint
The production of synthetic fibers is associated with high greenhouse gas emissions. For instance, producing 1 kg of
Acrylic fiber emits 35.7 kg of CO₂ equivalents, nylon emits 32 kg, and polyester emits 27.2 kg. These emissions are significant compared to many natural fibers. Additionally,
nylon production releases nitrous oxide, a greenhouse gas 310 times more potent than CO₂, making its impact especially severe.
Acrylic fiber, while praised for its softness, has a short garment lifespan and limited durability, leading to more frequent disposal and increased environmental burden.
Common synthetic fibers
Common synthetic fibers include:
Specialty synthetic fibers include:
Other synthetic materials used in fibers include:
Modern fibers that are made from older artificial materials include:
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Glass fiber (1938) is used for:
-
industrial, automotive, and home insulation (glass wool)
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reinforcement of composite materials (glass-reinforced plastic, glass fiber reinforced concrete)
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specialty papers in battery separators and filtration
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Metallic fiber (1946) is used for:
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adding metallic properties to clothing for the purpose of fashion (usually made with composite plastic and )
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elimination and prevention of static charge build-up
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conducting electricity to transmit information
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conduction of heat
See also
Further reading
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The original source of this article and much of the synthetic fiber articles (copied with permission) is Whole Earth magazine, No. 90, Summer 1997. www.wholeearth.com
