Integrated manufacturing of REciclable multi-material COmposites for the TRANSport sector
PlastiComp triples production of long carbon fiber reinforced composites
PlastiComp Inc. announced that it has completed installation of an additional pultrusion line dedicated to manufacturing long carbon fiber reinforced thermoplastic composite pellets at its Winona, MN, location. The firm brought its initial production line dedicated to producing long carbon fiber composite pellets online in 2014 and operates four other pultrusion lines to manufacture its long glass fiber products.
The pultrusion line will triple PlastiComp’s capacity for producing long carbon fiber products to ensure an uninterruptable supply chain, said Eric Wollan, Vice President and Chief Operating Officer.
To provide a safe operating environment and minimize downtime, PlastiComp installs its pultrusion lines in self-contained areas equipped with isolated electrical and air handling systems.
“From a pultrusion perspective, carbon fiber’s small filament diameter and conductivity makes it a little more challenging to manufacture composite pellets than other types of fiber,” said Wollan. “Using our specialized equipment, PlastiComp is able to completely melt impregnate continuous tows of carbon fiber with 12,000 to 50,000 filaments. This capability allows us to offer a broad range of composite material solutions, which we tailor to meet customer specific design and performance requirements.”
Long carbon fiber reinforced thermoplastic composites provide the strongest and stiffest performance available in flowable materials suitable for injection molding processing, said PlastiComp, which manufactures composite pellets under the Compl?t trade name. Fifteen to 50 weight-percent long carbon fiber reinforcement is combined into a broad range of thermoplastic matrices ranging from polypropylene to PEEK.
The firm also has a long fiber composites product line that combines glass fiber and carbon fiber together into a single pellet solution.
Often selected for its high strength-to-weight ratio—making it an ideal material choice for applications with structural requirements that also need to be lightweight—long carbon fiber composites offer mechanical performance equivalent to aluminum while providing design dependent weight reductions up to 50%.
Thermoplastic materials incorporating carbon fiber reinforcement are conductive (
This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement Nº 768737
