Learn about Hammerhead™ Marine Composite Panels made from continuous glass-fiber reinforced thermoplastic face sheets and polyester foam cores Optimize stiffness, strength, and toughness to obtain structural performance with lightweight long fiber reinforced thermoplastics.  Avient’s reinforced composite technologies use carbon, glass and aramid fibers with custom formulated thermoset or thermoplastic resins in continuous forming processes

Polystrand™ Continuous Fiber Tapes & Laminates Continuous Fiber Reinforced Thermoplastic Composites Benefits of Long Fiber Reinforced Thermoplastic Composites

Compared to traditional pole materials, fiber reinforced polymer (FRP) composites are more durable, require less maintenance, and provide a longer service life. Avient’s reinforced composite technologies use carbon, glass and aramid fibers with custom formulated thermoset or thermoplastic resins in continuous forming processes Continuous fiber-reinforced composites in standard and custom shapes & sizes

Originally developed for protection from mortar fire, fiber-reinforced polymer (FRP) composite panels offer ballistic resistance at less than 25 percent of the weight of a comparable steel panel. See how continuous fiber composites add safety and security to the world we live in. Avient’s reinforced composite technologies use carbon, glass and aramid fibers with custom formulated thermoset or thermoplastic resins in continuous forming processes

They realized they might be able to shave off even more weight and improve performance by replacing the aluminum braces with a continuous-fiber composite if they could find a material with an exceptional strength-to-weight ratio, high flexural stiffness, good torsional rigidity, and superior fatigue strength. To meet the underbody brace requirements, Avient’s Glasforms™ technologies were recommended to produce continuous fiber-reinforced braces. The automated pultrusion process fabricates continuous glass or carbon fiber-reinforced, constant cross-section profiles with consistent, uniform properties. 

They realized they might be able to shave off even more weight and improve performance by replacing the aluminum braces with a continuous-fiber composite if they could find a material with an exceptional strength-to-weight ratio, high flexural stiffness, good torsional rigidity, and superior fatigue strength. To meet the underbody brace requirements, Avient’s Glasforms™ technologies were recommended to produce continuous fiber-reinforced braces. The automated pultrusion process fabricates continuous glass or carbon fiber-reinforced, constant cross-section profiles with consistent, uniform properties. 

They realized they might be able to shave off even more weight and improve performance by replacing the aluminum braces with a continuous-fiber composite if they could find a material with an exceptional strength-to-weight ratio, high flexural stiffness, good torsional rigidity, and superior fatigue strength. To meet the underbody brace requirements, Avient’s Glasforms™ technologies were recommended to produce continuous fiber-reinforced braces. The automated pultrusion process fabricates continuous glass or carbon fiber-reinforced, constant cross-section profiles with consistent, uniform properties. 

Learn about Hammerhead™ Marine Composite Panels made from continuous glass-fiber reinforced thermoplastic face sheets and polyester foam cores Optimize stiffness, strength, and toughness to obtain structural performance with lightweight long fiber reinforced thermoplastics.  Avient’s reinforced composite technologies use carbon, glass and aramid fibers with custom formulated thermoset or thermoplastic resins in continuous forming processes

They realized they might be able to shave off even more weight and improve performance by replacing the aluminum braces with a continuous-fiber composite if they could find a material with an exceptional strength-to-weight ratio, high flexural stiffness, good torsional rigidity, and superior fatigue strength. To meet the underbody brace requirements, Avient’s Glasforms™ technologies were recommended to produce continuous fiber-reinforced braces. The automated pultrusion process fabricates continuous glass or carbon fiber-reinforced, constant cross-section profiles with consistent, uniform properties. 

They realized they might be able to shave off even more weight and improve performance by replacing the aluminum braces with a continuous-fiber composite if they could find a material with an exceptional strength-to-weight ratio, high flexural stiffness, good torsional rigidity, and superior fatigue strength. To meet the underbody brace requirements, Avient’s Glasforms™ technologies were recommended to produce continuous fiber-reinforced braces. The automated pultrusion process fabricates continuous glass or carbon fiber-reinforced, constant cross-section profiles with consistent, uniform properties.