https://www.avient.com/resource-center/knowledge-base/article/how-lightweight-automotive-components?rtype%5B0%5D=1164
Components requiring high strength, stiffness, impact resistance, or extreme temperature tolerance: Historically, concerns about plastics centered on their structural integrity and ability to withstand temperature fluctuations without melting, warping, or cracking.
Specifically, LFTs demonstrate excellent impact performance even at high levels of stiffness, and these materials exhibit low creep compared to their short-fiber counterparts.
They are also up to 100 times more fatigue-resistant than polymers reinforced with short fibers, offering a high degree of mechanical resistance to high loads.
https://www.avient.com/resource-center/knowledge-base/article/how-lightweight-automotive-components
Components requiring high strength, stiffness, impact resistance, or extreme temperature tolerance: Historically, concerns about plastics centered on their structural integrity and ability to withstand temperature fluctuations without melting, warping, or cracking.
Specifically, LFTs demonstrate excellent impact performance even at high levels of stiffness, and these materials exhibit low creep compared to their short-fiber counterparts.
They are also up to 100 times more fatigue-resistant than polymers reinforced with short fibers, offering a high degree of mechanical resistance to high loads.
https://www.avient.com/products/polymer-additives/fiber-additives/magiq-nonwoven-electret-additives
Impact
Explore Avient's range of high performance colorants and additives solutions.
Meets the high-quality and future-oriented coloring needs in high-performance applications.
https://www.avient.com/resource-center/knowledge-base/article/enhance-electric-vehicle-battery-design-and-performance?sust%5B0%5D=1165
This weight reduction can directly impact the overall performance of electric vehicles, enhancing their acceleration, range, and energy efficiency.
In the event of a crash or impact, high-strength polymers with good structural performance reduce the threat of deformation and fracture, minimizing the risk of leakage and exposure to hazardous materials.
Environmental Impact: Engineered polymers offer significant environmental benefits compared to the metals they are replacing, such as aluminum.
https://www.avient.com/resource-center/knowledge-base/article/enhance-electric-vehicle-battery-design-and-performance?ind%5B0%5D=21509
This weight reduction can directly impact the overall performance of electric vehicles, enhancing their acceleration, range, and energy efficiency.
In the event of a crash or impact, high-strength polymers with good structural performance reduce the threat of deformation and fracture, minimizing the risk of leakage and exposure to hazardous materials.
Environmental Impact: Engineered polymers offer significant environmental benefits compared to the metals they are replacing, such as aluminum.
https://www.avient.com/resource-center/knowledge-base/article/enhance-electric-vehicle-battery-design-and-performance?rtype%5B0%5D=1164
This weight reduction can directly impact the overall performance of electric vehicles, enhancing their acceleration, range, and energy efficiency.
In the event of a crash or impact, high-strength polymers with good structural performance reduce the threat of deformation and fracture, minimizing the risk of leakage and exposure to hazardous materials.
Environmental Impact: Engineered polymers offer significant environmental benefits compared to the metals they are replacing, such as aluminum.
https://www.avient.com/resource-center/knowledge-base/article/enhance-electric-vehicle-battery-design-and-performance?ind%5B0%5D=6601
This weight reduction can directly impact the overall performance of electric vehicles, enhancing their acceleration, range, and energy efficiency.
In the event of a crash or impact, high-strength polymers with good structural performance reduce the threat of deformation and fracture, minimizing the risk of leakage and exposure to hazardous materials.
Environmental Impact: Engineered polymers offer significant environmental benefits compared to the metals they are replacing, such as aluminum.
https://www.avient.com/products/polymer-additives/performance-enhancement-additives/cesa-bio-additives
If you’re considering bio-based plastics for the products in your portfolio, but are concerned about maintaining high product quality standards, we have the solution.
Impact
Impact modification
https://www.avient.com/products/polymer-additives/antioxidant-additives/cesa-unify-a4r
Impact
Boosts impact strength by up to 50%
Gives rPP higher impact properties
https://www.avient.com/products/fiber-line-engineered-fiber-solutions/high-performance-synthetic-fibers/zylon-pbo-fiber
High Strength & Flame Resistance
IMPACT
High Modulu