WebUHMW Polyethylene L-Angles. Ultra High Molecular Weight (UHMW) Polyethylene has exceptionally high abrasion and impact resistance properties. Translucent white in color. Has a low coefficient of friction & non-adherent surface. Temperature range: -60°F to … WebHigh-Temperature (HOT) UHMW Sheet. Technical Information. MSDS. Specially modified to operate in high temperature environments. Maximum operating temperature of 275°F. Off-white color. Commonly used in asphalt handling and transfers near high temperature areas such as ovens or waste burners. Also used in high-temperature nozzles.
www.technicalproductsinc.com UHMW Material Specifications
WebHigh-density polyethylene (HDPE) or polyethylene high-density ... Temperature of crystallization 111.9 °C. Latent heat of fusion 178.6 ... Crystallinity 60% HDPE is known for its high strength-to-density ratio. The density of HDPE ranges from 930 to 970 kg/m 3. The standard method to test plastic density is ISO 1183 part 2 ... Web- Lengths: 10 foot standard Formulated to maintain key performance properties in an extended temperature range, Tivar H.O.T. will excel in a variety of industrial … mark newton plumbing and heating
High Density Polyethylene (HDPE) - Polymershapes
WebDuro-Glide® Enhanced UHMW high performance sheets have additives that target specific properties to meet the most demanding applications. ... Unique antioxidant protects it from breaking down in extreme temperatures. Material is designed to effectively operate under lower loads with an upper temp range of 275° F. Impact and Wear Resistant ... WebTivar® H.O.T. (High Operating Temperature) is formulated to maintain key performance properties in an extended temperature range, Tivar® H.O.T.* will excel in a variety of … WebPolyslick™ HT (Hi-Temp) UHMW (Gray) Polyslick HT (Hi-Temperature)) UHMW Sheet exhibits the properties of excellent impact strength, abrasion resistance, low coefficient of friction, as well as very good chemical resistance. The material is ideally suited for wear applications especially in contact with metals. mark newton on cnbc