Zotefoams, Inc. Datasheets for Foams and Foam Materials

Foams and foam materials are industrial products made from low density elastomers, plastics and other materials with various structures and porosities.
Foams and Foam Materials: Learn more

Product Name Notes
High performance closed cell, cross-linked Nylon foam based on Polyamide 6. ZOTEK® N combines all the recognised benefits of nylon with the advantages of a foam. Excellent temperature performance (up...
Closed cell cross-linked polyethylene foam. A wide range of polymer combinations is available to give increased stiffness, improved temperature resistance and improved mouldability. Plastazote® foams are engineered to offer...
Closed cell cross-linked ethylene copolymer foam. Evazote® foams are tougher and more resilient than Plastazote foams. Evazote® foams are available in: a range of densities from 30kg/m3...
PVDF (polyvinylidene fluoride) High performance closed cell, cross-linked fluoro-polymer foam based on fluoride. ZOTEK®​ F foams are inherently flame retardant releasing very little heat and only small quantities...
Super soft, closed cell, cross-linked ethylene copolymer foam. The softest foam in the AZOTE® range, recommended for “soft-touch” applications where covering is not required Supazote® foams are available...
The clean technology insulation system for 21st Century cleanroom environments; designed to improve cost efficiency and eliminate risk T-FIT® Clean is the new name for T-TUBES® outside...
ZOTEK®​ F Aviation Interiors Grades OSU Flexible OSU Semi-rigid OSU Rigid ZOTEK®​ F General Aviation Grades F30 BMS 8-371D; AIMS04-14-009 F38 HT BMS 8-371D; AIMS04-14-009 F74...
ZOTEK® F Insulation Construction & Electronics Grades F35 F40 HT (High Temperature resistance up to 160ᵒC / 320ᵒF) F75 HT F40 HT LS (High Temperature, Low Smoke) (listed to...
Flammability Performance meets stringent aviation interior flammability requirements. ZOTEK® F also meets BMS 8-371D & AIMS04-14-009. Its OSU grades meet FAR 25.853(d) and exhibit exceptionally low heat release.