Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. Carbon fiber pultrusions are exceptionally lighter than metal and other materials. Medical: brace stiffeners and endoscopic dissectors rods.

Novoloid fibers are composed of 76% carbon, 18% oxygen, and 6% hydrogen. Novoloid can also be used as a precursor to carbon fiber. Fiber-Line Fiber Selection Guide

Complēt™ long carbon fiber reinforced nylon composite replaced aluminum to provide better fatigue resistance and reduce weight Complēt™ long carbon fiber reinforced nylon composite replaced metal steering column supports and lowered weight by 50% Complēt™ long carbon fiber reinforced PES composite reduced weight 40% and met FAA requirements for flammability and survivability

Complēt™ long carbon fiber reinforced nylon composite replaced aluminum to provide better fatigue resistance and reduce weight Complēt™ long carbon fiber reinforced nylon composite replaced metal steering column supports and lowered weight by 50% Complēt™ long carbon fiber reinforced PES composite reduced weight 40% and met FAA requirements for flammability and survivability

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.  For the brace, Avient's engineering team developed and analyzed three options: a unidirectional, hybrid carbon and glass fiber profile; a unidirectional carbon fiber profile; and finally, a profile made with both a unidirectional carbon fiber and a transverse engineered fabric, which had the advantage of minimizing any potential cracks from propagating.

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.  For the brace, Avient's engineering team developed and analyzed three options: a unidirectional, hybrid carbon and glass fiber profile; a unidirectional carbon fiber profile; and finally, a profile made with both a unidirectional carbon fiber and a transverse engineered fabric, which had the advantage of minimizing any potential cracks from propagating.

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.  For the brace, Avient's engineering team developed and analyzed three options: a unidirectional, hybrid carbon and glass fiber profile; a unidirectional carbon fiber profile; and finally, a profile made with both a unidirectional carbon fiber and a transverse engineered fabric, which had the advantage of minimizing any potential cracks from propagating.

Complēt™ long carbon fiber reinforced composites allows deployment of injection molded material solution for design flexibility and customization Complēt™ long carbon fiber reinforced ETPU composite reduced weight 33% and performance analysis services confirmed metal-to-thermoplastic conversion success Injection molded Complēt™ long carbon fiber reinforced nylon composite delivered high stiffness and low weight while simplifying manufacturing

Complēt™ long carbon fiber reinforced composites allows deployment of injection molded material solution for design flexibility and customization Complēt™ long carbon fiber reinforced ETPU composite reduced weight 33% and performance analysis services confirmed metal-to-thermoplastic conversion success Injection molded Complēt™ long carbon fiber reinforced nylon composite delivered high stiffness and low weight while simplifying manufacturing

Complēt™ long carbon fiber reinforced composites allows deployment of injection molded material solution for design flexibility and customization Complēt™ long carbon fiber reinforced ETPU composite reduced weight 33% and performance analysis services confirmed metal-to-thermoplastic conversion success Injection molded Complēt™ long carbon fiber reinforced nylon composite delivered high stiffness and low weight while simplifying manufacturing