Surface Generation (Rutland, UK), a provider of advanced carbon-fiber processing technologies, has begun an 18-month research and development project to produce affordable, lightweight carbon-fiber components for the automotive industry.
Backed by the British government’s Innovate UK program, Surface Generation is working with project partners to create enhanced automotive components, exploiting its patented PtFS production process to over mold long-fiber-reinforced carbon composites with short-fiber thermoplastics.
Surface Generation will develop manufacturing solutions for the production of coupons, sub-element components and demonstrator articles designed to improve the performance of automotive structures.
Part of the Thermoplastic Overmolding for Structural Composite Automotive Applications (TOSCAA) project, the consortium is led by SGL Carbon Fibers and includes Jaguar Land Rover, Engenuity, LMAT, Nifco, and the universities of Nottingham and Sheffield. The project has attracted more than £2 million in government funding for initiatives focused on making cars lighter and more fuel efficient.
The advanced manufacturing techniques developed by Surface Generation rely on its unique PtFS process, which uses active thermal management technologies incorporated in mold faces to adjust heating and cooling levels for each mold area and process stage in real time. PtFS is already being used by global automotive, aerospace and consumer electronics manufacturers to improve the quality and throughput of compression and injection molding applications and will be further developed over the course of the project.
Ben Halford, Chief Executive at Surface Generation, commented, “The benefits of lightweight carbon-fiber materials have been proven in Formula 1 and high-end supercars but are often uneconomic outside niche user cases. Surface Generation’s PtFS technology will extend the capability of thermoplastic overmolding, thereby delivering the functional benefits of carbon composites to a new class of cost-sensitive automotive components.”