https://www.avient.com/resource-center/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?ind%5B0%5D=21506
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/resource-center/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?pname%5B0%5D=10734
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/resource-center/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?rtype%5B0%5D=1124
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/resource-center/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?sust%5B0%5D=1139
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/resource-center/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?ind%5B0%5D=6597
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/resource-center/knowledge-base/case-study/lighter-weight-greater-durability-luxury-vehicles?sust%5B0%5D=1165
Maxxam™ formulations are based on polypropylene and polyethylene resins and can be filled and reinforced to satisfy the required performance characteristic.
https://www.avient.com/resource-center/knowledge-base/case-study/lighter-weight-greater-durability-luxury-vehicles?pname%5B0%5D=16817
Maxxam™ formulations are based on polypropylene and polyethylene resins and can be filled and reinforced to satisfy the required performance characteristic.
https://www.avient.com/products/vinyl-formulations/vinyl-plastisols-organosols/core-vinyl-organosols
Liquid at room temperature, these customized resins can also be toll blended for any application.
https://www.avient.com/resource-center/knowledge-base/case-study/lighter-weight-greater-durability-luxury-vehicles
Maxxam™ formulations are based on polypropylene and polyethylene resins and can be filled and reinforced to satisfy the required performance characteristic.
https://www.avient.com/products/polymer-additives/visual-enhancement-effects/cesa-mat-additives
Available in a number of different carriers ranging from polyolefins and styrenics to engineering resins: injection molding, blow molding, film and sheet extrusion, PET sheets and bottles, polyolefin films.