12 July 2016
12 July 2016
PlastiComp has recently completed a capital improvement project at its Winona, Minnesota, US, manufacturing and corporate headquarters facility which moved its research and development functions into a dedicated laboratory space.
PlastiComp explains that the lab, dubbed the Da Vinci R&D Lab by the company in honour of famed renaissance inventor and artist Leonardo da Vinci, the project provides an isolated environment for the firms’ smaller long fibre composite pellet pultrusion line and auxiliary equipment for conducting evaluations of new raw material feedstocks and processing enhancements.
“PlastiComp is one of the few long fibre compounders actively engaged in advancing long fibre technology into new markets and applications instead of just producing commodity long glass fibre polypropylene products,” said Steve Bowen, President and CEO at PlastiComp. “Our new Da Vinci Lab provides the ideal environment for PlastiComp to evaluate different fibre and polymer combinations as well as try out new processing techniques to assess their effect on material performance.”
PlastiComp adds that, in addition to custom engineering the performance of LFT materials to meet customer specific application requirements, it also performs contract research and development work for industry suppliers and partners seeking to adapt LFT technology.
“Our many industry partners really like the plant-within-a-plant concept the new lab offers because it provides a secure environment for our Technical Development Center activities in which we can conduct confidential trials separate from our primary production operations,” said Eric Wollan, Vice President of Technology and Business Development at PlastiComp. “Plus, it has opened up valuable floor space for future expansion that will allow PlastiComp to quickly add more composite pellet pultrusion lines as our business continues to grow.”
PlastiComp says its portfolio of Complēt composite pellet products incorporate long glass, carbon, and specialty fibres into thermoplastic polymers ranging from polypropylene to PEEK. Its expertise is a tailored development and manufacturing of innovative LFT’s using engineering resins, often in tandem with long carbon fibre reinforcement. Available globally, their LFT composite pellets are formed into finished components by customers via injection moulding or profile extrusion processing methods.
According to Plasticomp, LFT’s are desirable for their high strength and toughness properties - qualities that cannot be obtained together using other methods of reinforcing plastics. They provide a lightweight, easier to manufacture alternative to metals and are widely used in transportation, aerospace, defense, sporting goods, industrial equipment, and consumer goods market segment applications.
Photo provided by PlastiComp