https://www.avient.com/knowledge-base/case-study/new-approach-restores-efficiency-pulmonary-device-manufacturing?ind[]=6598
The problems arose where two clear resins were being blended at the press.
Switching from two blended resins to a single material delivered several key benefits to the manufacturer, including:
https://www.avient.com/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?rtype[]=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/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?sust[]=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/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?ind[]=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/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?ind[]=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/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?pname[]=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/knowledge-base/case-study/lightweighting-commercial-trucks-and-trailers?rtype[]=1124
These tapes and laminates combined high strength, unidirectional fibers and engineered thermoplastic resins to help reduce weight while maintaining exceptional strength and impact resistance.
https://www.avient.com/knowledge-base/case-study/lightweighting-commercial-trucks-and-trailers?psfam[]=10864
These tapes and laminates combined high strength, unidirectional fibers and engineered thermoplastic resins to help reduce weight while maintaining exceptional strength and impact resistance.
https://www.avient.com/knowledge-base/case-study/lightweighting-commercial-trucks-and-trailers?sust[]=1165
These tapes and laminates combined high strength, unidirectional fibers and engineered thermoplastic resins to help reduce weight while maintaining exceptional strength and impact resistance.
https://www.avient.com/knowledge-base/case-study/lightweighting-heavy-trucks
These tapes and laminates combined high strength, unidirectional fibers and engineered thermoplastic resins to help reduce weight while maintaining exceptional strength and impact resistance.
