Eastman Tritan cannot be used for hot beverages (like hot water, coffee or tea) and is recommended only for usage temperatures below 60 °C, as it starts to deteriorate at temperatures above 80 °C.[4][5]
In April 2008, Nalgene announced it would phase out production of its outdoor line of polycarbonate containers containing the chemical bisphenol A.[6] Nalgene now uses Tritan as a replacement for polycarbonate, as it does not contain BPA.[7]
The Eastman Chemical Company sued, and after a jury ruled in Eastman's favor, the Court barred Bittner from making claims about Tritan's estrogenic activity.[1]
Similar products
Other manufacturers have developed similar products including the French Arc Holdings's Kwarx since 2006,[9] the German Glaskoch [de] (Leonardo) Teqton since 2009[10] and the South-Korean SK Chemicals' Ecozen, a glycol-modified polyethylene terephthalate (PETG) since 2010/2011.[11] Other manufacturers propose polypropylene (PP)[12] or methylstyrene (MS) as alternatives to Tritan.
Name confusion
Tritan[13] can also refer to a type of so called unbreakable glass originally developed by the German Zwiesel Kristallglas in 2002 together with University of Erlangen–Nuremberg.[14][15] Its name is derived from titanoxide (titanium oxide in English). In 2012, the Zwiesel Kristallglas company introduced Tritan Protect.[15][16][17]Confusingly, although both are unrelated, Zwiesel Tritan glass and Eastman Tritan copolyester are both advertised as "shatter protected" and are used in the production of drinking glasses as replacements for traditional glasses, despite their different material properties.
See also
Superfest (a chemically hardened glass also known as Ceverit or CV-Glas)
^ a bGlausiusz, Josie (2014). "Toxicology: The plastics puzzle". Nature. 508 (7496): 306–308. Bibcode:2014Natur.508..306G. doi:10.1038/508306a. PMID 24740050. S2CID 4454912.
^"Bisphenol A: Kunststoff mit Nebenwirkungen". www.spektrum.de (in German). Retrieved 2024-02-29.
^Osimitz, T. G.; Eldridge, M. L.; Sloter, E.; Welsh, W.; Ai, N.; Sayler, G. S.; Menn, F.; Toole, C. (2012). "Lack of androgenicity and estrogenicity of the three monomers used in Eastman's Tritan copolyesters". Food and Chemical Toxicology. 50 (6): 2196–2305. doi:10.1016/j.fct.2012.02.010. PMID 22343188.
^"Tritan, Edelstahl oder Glas? Die Vor- und Nachteile der verschiedenen Trinkflaschen-Materialien". boddels.de (in German). 2021-03-06. Archived from the original on 2024-01-19. Retrieved 2024-05-15.
^"Is Tritan Plastic Better Than Traditional Plastic?". www.greenhive.io. Archived from the original on 2024-05-01. Retrieved 2024-05-15.
^"Nalgene to Phase Out Production of Consumer Bottles Containing BPA". Reuters. 2008-04-18. Archived from the original (PDF) on 2014-04-30. Retrieved 2013-02-07.
^"Nalgene Choice". Archived from the original on 2016-03-02. Retrieved 2008-09-29. Requires Adobe Flash
^Yang, Chun Z.; Yaniger, Stuart I.; Jordan, V. Craig; Klein, Daniel J.; Bittner, George D. (2011). "Most Plastic Products Release Estrogenic Chemicals: A Potential Health Problem That Can be Solved". Environmental Health Perspectives. 119 (7): 989–996. doi:10.1289/ehp.1003220. PMC 3222987. PMID 21367689.
^"twenty4 - erste Glasserie von LEONARDO aus dem Glasmaterial TEQTON® - Pressemeldung vom 17.08.2009". www.perspektive-mittelstand.de. Retrieved 2024-02-29.