Difference between revisions of "Polyethylene terephthalate"

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Examples: Dacron® [DuPont]; Fortrel®; Mylar® [DuPont]; Melinex® [DuPont]; Terylene [ICI]; Ertalyte® [Quadrant]; Eastar® {Eastman]; Impet® [Ticona]; Terphane® [Terphane]; Crimplene; Diolen; Grilene; Tergal [Tergal Industries];Terital; Tetoron; Trevira® [Trevira ex Höchst]
 
Examples: Dacron® [DuPont]; Fortrel®; Mylar® [DuPont]; Melinex® [DuPont]; Terylene [ICI]; Ertalyte® [Quadrant]; Eastar® {Eastman]; Impet® [Ticona]; Terphane® [Terphane]; Crimplene; Diolen; Grilene; Tergal [Tergal Industries];Terital; Tetoron; Trevira® [Trevira ex Höchst]
 +
 +
==Applications==
 +
* Textiles (polyester)
 +
* Rigid packaging (bottles, recyclable type 1)
 +
* Films (Mylar)
 +
* Waterproofing barriers
  
 
== Risks ==
 
== Risks ==
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* Burns with a shiny, yellow-orange, sooty flame.   
 
* Burns with a shiny, yellow-orange, sooty flame.   
 
* Low impact strength.
 
* Low impact strength.
* Easily degrades in UV light
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* Easily degrades in UV light.
 
* AM Polymer: [http://ampolymer.com/SDS/PolyethyleneTerephthalateSDS.html SDS}
 
* AM Polymer: [http://ampolymer.com/SDS/PolyethyleneTerephthalateSDS.html SDS}
  
 
==Physical and Chemical Properties==
 
==Physical and Chemical Properties==
 
+
* Colorless, semi-crystalline resin
Resistant to cold acids, weak alkalis, bleach and most organic solvents.  Degrades in strong alkalis, strong hot acids, cresol.  Tenacity = 2.8-5.2;  Elongation = 19-30%;  Moisture regain = 0.4%
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* Strong and impact-resistant
 
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* Resistant to cold acids, weak alkalis, bleach and most organic solvents.   
{| class="wikitable"
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* Degrades in strong alkalis, strong hot acids, cresol.   
|-
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* Permeable to oxygen and carbon dioxide
! scope="row"| Melting Point
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* Melting Point = 250-260  
| 250-260
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* Density = 1.36-1.41 g/ml
|-
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* Refractive Index = 1.54, 1.72
! scope="row"| Density
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* Tenacity = 2.8-5.2
| 1.36-1.41 g/ml
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* Elongation = 19-30%
|-
+
* Moisture regain = 0.4%
! scope="row"| Refractive Index
 
| 1.54, 1.72
 
|}
 
  
 
== Comparisons ==
 
== Comparisons ==

Revision as of 11:20, 23 September 2023

Description

A type of polyester made by condensing Ethylene glycol and Terephthalic acid. In 1951, polyethylene terephthalate (PET) became the first commercially marketed polyester. It was sold as Dacron® in the U.S. and as Terylene in Great Britain. PET is a semicrystalline, thermoplastic polymer that is extremely durable and dimensionally stable. It is resistant to abrasion, chemicals. PET is used to make Mylar® and other strong moisture-resistant films used in packaging, photographs, x-rays and audio/visual tapes. Since 1977, PET has been widely used in food containers, especially for carbonated beverages. Recycled PET is used as fiberfill and in cast resins, such as boat hulls and shower units.

Synonyms and Related Terms

FTIR

AaiPET.jpg

PET; PETE; polyester; tereftalato de polietilenglicol (Esp.); poli (tereftalato de etieno) (Esp.); polyéthylène terephthalate (Fr.); polietilene tereftalato (It.); tereftalato de polietileno (Port.); polyethylene glycol terephthalate

Examples: Dacron® [DuPont]; Fortrel®; Mylar® [DuPont]; Melinex® [DuPont]; Terylene [ICI]; Ertalyte® [Quadrant]; Eastar® {Eastman]; Impet® [Ticona]; Terphane® [Terphane]; Crimplene; Diolen; Grilene; Tergal [Tergal Industries];Terital; Tetoron; Trevira® [Trevira ex Höchst]

Applications

  • Textiles (polyester)
  • Rigid packaging (bottles, recyclable type 1)
  • Films (Mylar)
  • Waterproofing barriers

Risks

Physical and Chemical Properties

  • Colorless, semi-crystalline resin
  • Strong and impact-resistant
  • Resistant to cold acids, weak alkalis, bleach and most organic solvents.
  • Degrades in strong alkalis, strong hot acids, cresol.
  • Permeable to oxygen and carbon dioxide
  • Melting Point = 250-260
  • Density = 1.36-1.41 g/ml
  • Refractive Index = 1.54, 1.72
  • Tenacity = 2.8-5.2
  • Elongation = 19-30%
  • Moisture regain = 0.4%

Comparisons

Physical Properties for Selected Thermoplastic Resins

General Characteristics of Polymers

Resources and Citations

  • Omnexus: Guide on PET
  • Wikipedia: Polyethylene terephthalate
  • Pam Hatchfield, Pollutants in the Museum Environment, Archetype Press, London, 2002
  • Marjory L. Joseph, Introductory Textile Science, Holt, Rinehart and Winston, Fort Worth, TX, 1986
  • Van Nostrand's Scientific Encyclopedia, Douglas M. Considine (ed.), Van Nostrand Reinhold, New York, 1976
  • Identification of Textile Materials, The Textile Institute, Manchester, England, 1985
  • Theodore J. Reinhart, 'Glossary of Terms', Engineered Plastics, ASM International, 1988

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