Non-PFAS Development Process and Solutions Learn more about our solid solution, Cesa™ Non-PFAS Process Aid for Extrusion, and our Colorant Chromatics™ Evoluscend™ Non-PFAS High-Temperature Mold Release Additive. Non-PFAS Process Aid for Extrusion

DM691#4 NON PIGMENTED NON-PHTHALATE DM691#5 NAVY BLUE NON-PHTHALATE PP FR 8-6 LMS-1000

Geon MB3144B TRANS PURPLE NON PHTH LO OD Geon(TM) MB3120E GLOW IN DARK NON PHTH PP FR 8-6 LMS-1000

DM691#6 NAVY BLUE NON-PHTHALATE DM691#7 NAVY BLUE NON-PHTHALATE PP FR 8-6 LMS-1000

Geon(TM) DB5248 BLACK NON-PHTHALATE Geon(TM) DB5215A TAN TEX NON-PHTHALATE PP FR 8-6 LMS-1000

It’s the highest honor a non-sales associate can receive at our company. Additionally, protective cable insulation and jacketing can be made from ECCOH™ Low Smoke and Fume, Non-Halogen Formulations. ECCOH™ Low Smoke and Fume Non-Halogen Formulations can be used as insulation and jacketing for a variety of energy, optical fiber and communication cables for 5G.

It’s the highest honor a non-sales associate can receive at our company. Additionally, protective cable insulation and jacketing can be made from ECCOH™ Low Smoke and Fume, Non-Halogen Formulations. ECCOH™ Low Smoke and Fume Non-Halogen Formulations can be used as insulation and jacketing for a variety of energy, optical fiber and communication cables for 5G.

N95 masks, for example, rely on multi-layer construction, with a middle layer made from melt-blown non-woven material. This masterbatch was necessary for the manufacture of melt-blown non-woven polypropylene used to make the protective face masks with long-lasting filtration properties. By introducing additives with charge storage properties, “charge traps” were created to capture the electret charge being applied to melt-blown non-woven material.

N95 masks, for example, rely on multi-layer construction, with a middle layer made from melt-blown non-woven material. This masterbatch was necessary for the manufacture of melt-blown non-woven polypropylene used to make the protective face masks with long-lasting filtration properties. By introducing additives with charge storage properties, “charge traps” were created to capture the electret charge being applied to melt-blown non-woven material.

N95 masks, for example, rely on multi-layer construction, with a middle layer made from melt-blown non-woven material. This masterbatch was necessary for the manufacture of melt-blown non-woven polypropylene used to make the protective face masks with long-lasting filtration properties. By introducing additives with charge storage properties, “charge traps” were created to capture the electret charge being applied to melt-blown non-woven material.