Harper International to build scientific line for pitch carbon fiber
Pilot-scale equipment will be used by InnoTech Alberta starting in 2025 as part of the Carbon Fibre Grand Challenge, producing bitumen-derived carbon fiber.
Source | Harper International
Thermal processing solutions provider Harper International (Buffalo, N.Y., U.S.) has been awarded a contract to engineer and manufacture a scientific line for the production of bitumen pitch carbon — a petroleum-derived pitch that can be used to make carbon fiber — to be installed at Alberta Innovates, located in Edmonton, Alberta, Canada. The facility will be operated by research institute InnoTech Alberta, a wholly owned subsidiary of Alberta Innovates. The equipment delivery and startup services are scheduled within 2025.
This pilot-scale equipment will be used by researchers as part of the Carbon Fibre Grand Challenge launched by Alberta Innovates to accelerate the development of large-scale production pathways for short and continuous carbon fiber from bitumen-derived feedstocks. Phase III of the competition will enable projects to demonstrate in a repeatable manner the ability to manufacture carbon fiber, incorporate the carbon fiber into prototypes and understand the techno-economics associated with the designed process.
“Harper is pleased to support Alberta Innovates Carbon Fibre Grand Challenge to successfully create an alternative carbon fiber precursor with our customized scientific line,” says Briana Tom, Harper sales engineer. “Carbon fiber from bitumen-derived precursor will significantly lower the price and have a smaller environmental impact.”
Related Content
-
Manufacturing the MFFD thermoplastic composite fuselage
Demonstrator’s upper, lower shells and assembly prove materials and new processes for lighter, cheaper and more sustainable high-rate future aircraft.
-
The lessons behind OceanGate
Carbon fiber composites faced much criticism in the wake of the OceanGate submersible accident. CW’s publisher Jeff Sloan explains that it’s not that simple.
-
The potential for thermoplastic composite nacelles
Collins Aerospace draws on global team, decades of experience to demonstrate large, curved AFP and welded structures for the next generation of aircraft.