18. Jan 2023
Carbon-fibre-reinforced plastics (CFRP) are highly attractive for various industries in demanding application fields due to their unique balance of rigidity, mechanical strength, and lightweight – also compared with conventional glass-fibre-reinforced plastics.
However, CFRPs are expensive and challenging from a recycling perspective, as it is difficult to extract the carbon fibres from the resin after usage. Together with its project partners at the National Institute of Technology at Kitakyushu College (Kitakyushu, Japan) and the Tokyo University of Science (Japan, Tokyo), Asahi Kasei (Japan, Tokyo) has developed a recycling method that allows carbon fibres to be extracted from CFRP or carbon-fibre-reinforced thermoplastics (CFRTP) used in automobiles. This results in high-quality, inexpensive continuous carbon fibre that can be recycled perpetually, contributing to a more circular economy. Unlike carbon fibre that is chopped up during the recycling process, Asahi Kasei’s method allows carbon fibre to be extracted from a plastic compound seamlessly, resulting in continuous strands of carbon fibre that can be reapplied in exactly the same manner while retaining properties identical to the original substance.
The conventional technologies for recycling carbon fibres by chopping and re-applying them results in a product with lower quality and less durability, insufficient for high-performance applications. To address this issue, Asahi Kasei has developed an electrolyzed sulfuric acid solution method that allows the carbon fibres to retain their original strength and continuous nature while fully decomposing the resin the carbon fibres are embedded in. This allows for their continued use in high-performance applications and presents an inexpensive, circular solution to the end-of-life dilemma of carbon fibre plastic compounds. Thus, these carbon fibre compounds present in vehicles for weight reduction can be easily and inexpensively broken down at end-of-vehicle-life and reapplied to new vehicles in the future.
In addition, Asahi Kasei is developing a carbon-fibre-reinforced thermoplastic unidirectional tape (CFRTP-UD tape) that utilizes both recycled continuous carbon fibre and the company’s Leona™ polyamide resin. Boasting a higher strength than metal, this CFRTP-UD tape can be applied to automobile frames and bodies, further enabling the recycling of end-of-vehicle-life parts into different, new automobile parts. This presents a solution to the long-term challenge that carbon fibre usage for vehicles has posed on the industry and is expected to economically benefit and strengthen carbon fibre’s usage within the automobile industry on a global scale. Moving forward, Asahi Kasei will perform demonstrations and develop the business, aiming for practical application around 2030. AT