Difference between revisions of "Triacetate fiber"

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[[File:Triacetate scarf MFA.jpg|thumb|Triacetate scarf<br>MFA# 2001.2388]]
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== Description ==
 
[[File:triacetatefiberslarge.jpg|thumb|Triacetate fiber]]
 
[[File:triacetatefiberslarge.jpg|thumb|Triacetate fiber]]
== Description ==
 
 
 
A manufactured fiber produced from [[cellulose%20triacetate|cellulose triacetate]]. Cellulose triacetate was first developed by Schutzenberger in 1865. However, this early acetate was a tough hard [[plastic|plastic]] that contained high amounts of [[acid|acids]] and was only soluble in expensive chlorinated [[solvent|solvents]]. Thus, cellulose triacetate was not commercially viable until the mid-1950s when economical solvents became available. Triacetate is a durable fiber that is resistant to wrinkles, stains, chemicals, sunlight, insects, and moisture. It should not be dry-cleaned but is not degraded by normal laundering. It dries quickly in air or cool driers and maintains its shape without ironing. Triacetate is a crisp, firm fabric that is often used in [[taffeta|taffetas]] and [[suiting|suitings]]. It is used in drip-dry clothing, tablecloths, skirts, and slacks. It is often used in wool blends to increase washability and crease retention. A surface saponification finishing process, called S-Finishing, is often applied to triacetate fabrics to minimize static.   
 
A manufactured fiber produced from [[cellulose%20triacetate|cellulose triacetate]]. Cellulose triacetate was first developed by Schutzenberger in 1865. However, this early acetate was a tough hard [[plastic|plastic]] that contained high amounts of [[acid|acids]] and was only soluble in expensive chlorinated [[solvent|solvents]]. Thus, cellulose triacetate was not commercially viable until the mid-1950s when economical solvents became available. Triacetate is a durable fiber that is resistant to wrinkles, stains, chemicals, sunlight, insects, and moisture. It should not be dry-cleaned but is not degraded by normal laundering. It dries quickly in air or cool driers and maintains its shape without ironing. Triacetate is a crisp, firm fabric that is often used in [[taffeta|taffetas]] and [[suiting|suitings]]. It is used in drip-dry clothing, tablecloths, skirts, and slacks. It is often used in wool blends to increase washability and crease retention. A surface saponification finishing process, called S-Finishing, is often applied to triacetate fabrics to minimize static.   
  

Revision as of 13:25, 5 December 2020

Triacetate scarf
MFA# 2001.2388

Description

Triacetate fiber

A manufactured fiber produced from Cellulose triacetate. Cellulose triacetate was first developed by Schutzenberger in 1865. However, this early acetate was a tough hard Plastic that contained high amounts of acids and was only soluble in expensive chlorinated solvents. Thus, cellulose triacetate was not commercially viable until the mid-1950s when economical solvents became available. Triacetate is a durable fiber that is resistant to wrinkles, stains, chemicals, sunlight, insects, and moisture. It should not be dry-cleaned but is not degraded by normal laundering. It dries quickly in air or cool driers and maintains its shape without ironing. Triacetate is a crisp, firm fabric that is often used in taffetas and suitings. It is used in drip-dry clothing, tablecloths, skirts, and slacks. It is often used in wool blends to increase washability and crease retention. A surface saponification finishing process, called S-Finishing, is often applied to triacetate fabrics to minimize static.

See also Acetate fiber.

Synonyms and Related Terms

triacetate fibre; Arnel® [Celanese, America]; Tricel [British Celanese]; Trilan; primary acetate; JPS [Courtaulds]; Courpleta [Courtaulds];fibra de triacetato(Esp.)

FTIR

Arnelfiberkj1.jpg

FTIR

TriacetateTestfabrics.jpg

SEM

Arnel500m.jpg


Physical and Chemical Properties

  • Soluble in chloroform, methylene chloride, m-cresol, 90% phenol
  • Insoluble in acetone
  • Unaffected by dilute acids, alkalis and bleaches
  • Cross section is bulbous; fiber has longitudinal striations
  • Tenacity = 1.1-1.4 g/denier (dry); 0.7-0.8 g/denier (wet)
  • Elongation 25-35% (dry); 30-40% (wet)
  • Moisture regain = 2.5-3.5%
  • CAS# = 9012-09-3
  • Melting Point = 300
  • Density = 1.32

Hazards and Safety

Subject to static cling

Comparisons

Properties of Synthetic Fibers

Sources Checked for Data in Record

  • Hoechst Celanese Corporation, Dictionary of Fiber & Textile Technology (older version called Man-made Fiber and Textile Dictionary, 1965), Hoechst Celanese Corporation, Charlotte NC, 1990
  • Rosalie Rosso King, Textile Identification, Conservation, and Preservation, Noyes Publications, Park Ridge, NJ, 1985
  • Marjory L. Joseph, Introductory Textile Science, Holt, Rinehart and Winston, Fort Worth, TX, 1986
  • Identification of Textile Materials, The Textile Institute, Manchester, England, 1985
  • J.Gordon Cook, Handbook of Textile Fibres:II Man-made Fibres, Merrow Publishing Co. , Durham, England, 1984, p.99.
  • Van Nostrand's Scientific Encyclopedia, Douglas M. Considine (ed.), Van Nostrand Reinhold, New York, 1976

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