Difference between revisions of "Polyester"
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{| class="wikitable" style="text-align:center" | {| class="wikitable" style="text-align:center" | ||
| − | |+Table of Selected | + | |+Table of Selected Types of Polyesters |
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! Polymer Name!! Common or <br>Commercial Names !! Potential Concerns !! Links | ! Polymer Name!! Common or <br>Commercial Names !! Potential Concerns !! Links | ||
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! Polyethylene terephthalate (PET) | ! Polyethylene terephthalate (PET) | ||
| − | | Polyester fiber; Melinex, Mylar, Dacron, Terylene, Teijin Fibers || || [[Polyethylene terephthalate | + | | Polyester fiber; Melinex, Mylar, Dacron, Terylene, Teijin Fibers || || [[Polyethylene terephthalate<ref>While this may be a commonly applied term for PET, the use of “polyester” as a synonym for PET is an oversimplification. Always clarify which polyester is used in a product if on a product page it is only listed as “polyester”.</ref>]] |
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! Polyglycocide or polyglycolic acid (PGA) | ! Polyglycocide or polyglycolic acid (PGA) | ||
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== Applications == | == Applications == | ||
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==Physical and Chemical Properties == | ==Physical and Chemical Properties == | ||
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==Resources and Citations== | ==Resources and Citations== | ||
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* Contributions: Molly McGath, AIC Plastics Panel, 2020. | * Contributions: Molly McGath, AIC Plastics Panel, 2020. | ||
* McGath MK, Hall AKI, Zaccaron S, Wallace J, Minter WD, Mcguiggan PM (2017). Stewing in its own juices? The permeability of PET by water and acetic acid. ''Restaurator'' 38(4). 355-382. | * McGath MK, Hall AKI, Zaccaron S, Wallace J, Minter WD, Mcguiggan PM (2017). Stewing in its own juices? The permeability of PET by water and acetic acid. ''Restaurator'' 38(4). 355-382. | ||
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* Hall AKI, McGath MK, Minter WD, McGuiggan PM (2020). The breathability of PET to water vapor: Thickness effects. ''Journal of the American Institute for Conservation'' 59(1). 40-52. | * Hall AKI, McGath MK, Minter WD, McGuiggan PM (2020). The breathability of PET to water vapor: Thickness effects. ''Journal of the American Institute for Conservation'' 59(1). 40-52. | ||
| + | * https://www.innovationintextiles.com/skin-friendly-polyester-has-stable-ph-level/ | ||
| − | + | [[Category:Materials database]] | |
Latest revision as of 11:03, 10 February 2025
Description
Polyester is a class of polymers that contains ester in its main functional group (which means that at least one hydroxyl group is replaced with an alkoxy group). Polyesters are widely used in the clothing and textile industries, as well as packaging, consumer goods, and more. Polyesters may be thermoplastic or thermoset, often depending on the ester group attached to the polymer chain. See Polyester fiber, Polyester film, or Polyester resin.
| Polymer Name | Common or Commercial Names |
Potential Concerns | Links |
|---|---|---|---|
| Polybutylene succinate (PBS) | 1 | Biodegradable | Wikipedia |
| Plybutylene terephthalate (PBT) | 2 | 4 | Polybutylene terephthalate |
| Polycarbonate (PC) | 3 | 6 | Polycarbonate |
| Polycaprolactone (PCL) | Varaform | Biodegradable | Wikipedia |
| Polyethylene adipate (PEA) | 4 | 8 | Wikipedia |
| Polyethylene naphthalate (PEN) | Advance Photo System film | 10 | Wikipedia |
| Polyethylene terephthalate (PET) | Polyester fiber; Melinex, Mylar, Dacron, Terylene, Teijin Fibers | [[Polyethylene terephthalate[1]]] | |
| Polyglycocide or polyglycolic acid (PGA) | Dexon, Vicryl | Biodegradable | Wikipedia |
| Polyhydroxyalkanoates (PHA) | Biopol | Biodegradable | Wikipedia |
| Polyhydroxybutyrate (PHB) | 4 | Biodegradable | 12 |
| Polylactic acid (PLA) | 3 | Biodegradable | Polylactic acid |
| Polytrimethylene terephthalate (PTT) | 4 | 8 | Wikipedia |
| Vectran LCP) | Liquid Crystal Polymer | 10 | Wikipedia |
- ↑ While this may be a commonly applied term for PET, the use of “polyester” as a synonym for PET is an oversimplification. Always clarify which polyester is used in a product if on a product page it is only listed as “polyester”.
Applications
Personal Risks
Environmental Risks
Collection Risks
The risk to collections is entirely dependent on which polyester is in use.
The biodegraded polymers have the risk of attracting pests and giving off volatile organic compounds that may be damaging.
The polyester terephthalate polymers generally are stable, and are typically useful vapor barriers. However this vapor barrier may trap damaging gases or water with an at risk object (McGath, 2017, Hall 2019) Additionally, there are instances where PET has been engineered to be acidic (https://www.innovationintextiles.com/skin-friendly-polyester-has-stable-ph-level/)
Physical and Chemical Properties
Resources and Citations
- Contributions: Molly McGath, AIC Plastics Panel, 2020.
- McGath MK, Hall AKI, Zaccaron S, Wallace J, Minter WD, Mcguiggan PM (2017). Stewing in its own juices? The permeability of PET by water and acetic acid. Restaurator 38(4). 355-382.
- Hall AKI, McGath MK, Minter WD, McGuiggan PM (2020). The breathability of PET to water vapor: Thickness effects. Journal of the American Institute for Conservation 59(1). 40-52.
- https://www.innovationintextiles.com/skin-friendly-polyester-has-stable-ph-level/