Harper International received order for pitch carbon fiber oxidation oven system
The oven is critical for the University of Kentucky’s Center for Applied Energy Research procurement of coal-derived carbon fiber precursor material.
Photo Credit: Harper International
Harper International (Buffalo, N.Y., U.S.), a company offering complete thermal processing solutions for advanced materials, has been awarded a contract to engineer and manufacture a Pitch Carbon Fiber Stabilization Mesh Belt Oven system to be installed at the University of Kentucky’s Center for Applied Energy Research (CAER) located in Lexington, Ken., U.S. The equipment delivery and startup services are scheduled within 2022.
“The Oxidation Oven system is a critical piece of our fiber development facility at CAER,” says Matt Weisenberger, associate director of the Carbon Materials Technologies Group at the University of Kentucky.
This scientific-scale equipment will be used by researchers at the university to convert mesophase pitch, a liquid crystal derived from coal tar, into an oxidized carbon fiber precursor material. CAER’s research and investigation into coal-derived precursor material processes aims to lower the cost of producing high-quality carbon fibers by more than 50%, enabling application into widespread use such as automotive composite materials.
“Harper is pleased to support the University of Kentucky’s research into alternative carbon fiber precursor materials with our advanced thermal processing solutions,” says Paul Elwell, Harper VP of sales and marketing. “We expect the research conducted using the Harper oxidation oven system will help validate the advantages of lower raw material cost and higher yields offered by coal-pitch based carbon fibers.”
Related Content
-
Plant tour: Joby Aviation, Marina, Calif., U.S.
As the advanced air mobility market begins to take shape, market leader Joby Aviation works to industrialize composites manufacturing for its first-generation, composites-intensive, all-electric air taxi.
-
One-piece, one-shot, 17-meter wing spar for high-rate aircraft manufacture
GKN Aerospace has spent the last five years developing materials strategies and resin transfer molding (RTM) for an aircraft trailing edge wing spar for the Airbus Wing of Tomorrow program.
-
Materials & Processes: Composites fibers and resins
Compared to legacy materials like steel, aluminum, iron and titanium, composites are still coming of age, and only just now are being better understood by design and manufacturing engineers. However, composites’ physical properties — combined with unbeatable light weight — make them undeniably attractive.