Technological watch

New Recyclable Carbon Fiber-reinforced Composite with Self-healing Properties


A WSU research team has created a recyclable carbon-fiber reinforced composite that could eventually replace the non-recyclable version used in everything from modern airplane wings and wind turbines to sporting goods.
Easy Substitution in Current Manufacturing Processes
Led by Jinwen Zhang, professor in the school of mechanical and materials engineering, researchers developed a recyclable material that is as strong as commonly used carbon-fiber composites and can also be broken down in very hot water within a pressure vessel. The new material could be easily substituted into current manufacturing processes.
Carbon fiber reinforced composites are increasingly popular in many industries as they are light and strong. They serve as an energy-saving, lighter alternative to metals, especially in the aviation and automotive industries.
Use of Epoxy Vitrimer Instead of Traditional Resins
Zhang’s team developed a composite material that uses an epoxy vitrimer as an alternative to the traditional epoxy resin. The material is hard and durable like an epoxy thermoset but can also show self-healing and malleable properties at high temperatures like a thermoplastic.
When they used their epoxy vitrimer in the composite material, they were able to degrade their material in pressurized, distilled water beginning at 160 degrees Celsius, dissolving it into valuable carbon fiber and other compounds, which can then be re-used. The recycled carbon fiber was comparable in strength to brand new carbon fiber. When they raised the temperature to 180 degrees, the material completely dissolved. The epoxy vitrimer that they developed could easily be substituted into the manufacturing process.
There is no need to change the chemistry of the process – it is just a slight modification of using the epoxy vitrimer instead of traditional epoxy,” Zhang said. “The technology is simply and readily applicable.”
While the new recyclable material could be easily adopted by manufacturers, Zhang is also continuing work to improve recycling of the composites that are currently in the market.



Publication date: 27/01/2021

Omnexus (news)

This project has been co-funded with the support of the LIFE financial instrument of the European Union [LIFE17 ENV/ES/000438] Life programme

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Last update: 2020-07-14