O-10 liquid PTFE is manufactured without the use of fluorinated polymerization aids, reinforcing its primary position as the sustainable fluoropolymer dispersion solution.
O-200 is a suspension-grade PTFE micropowder demonstrating superior particle size and molecular weight precision. Moreover, it is chemically optimized for polar end groups, demonstrating superior dispersibility and compatibility in a spectrum of materials.
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O-300 is one of the most innovative fluoroadditives ever designed. It provides a hybrid technology of both emulsion and suspension-grade PTFE variants. Its unique primary and secondary particle architecture provides the utmost in lubrication, surface area modification, and desirable contributions to composites and compounds.
Need nothing but the most versatile PTFE additive with best-in-class thermal stability? Look no further than our O-400 PTFE micropowder. This micropowder is our most thermally stable and non-reactive. Our polymer engineers have dialed in the number of average molecular weight and MW distribution, resulting in the most uniform and high-quality fluoroadditive in the industry.
Odyssey Polymers™️ O-series Polymer Processing Aids (PPA) are engineered with sustainable fluoroelastomer technology.
Odyssey Polymers™️ O-series Polymer Processing Aids (PPA) are engineered with sustainable fluoroelastomer technology.
Odyssey Polymers™️ O-series Polymer Processing Aids (PPA) are engineered with sustainable fluoroelastomer technology.
O-5 is a Zirconium Phosphate additive engineered for superior polymer compatibility and enhanced mechanical performance. Its high surface area and lamellar morphology make it an effective dry lubricant, while its reactive properties improve integration with host resins. Often used as a PFAS-free alternative, it enhances wear resistance and mechanical properties in polymer compounds, engineered polymers, and composites.
Odyssey Polymers™ O-7 is a fluorinated mica demonstrating extreme thermal resistance and a unique morphology that allows it to function as an additive in other engineered polymers. Its platelet microstructure, combined with its unique embedded fluorination, result in an additive that imparts improved wear resistance within the matrix of its host polymer.