{"id":14995,"date":"2019-12-10T08:24:09","date_gmt":"2019-12-10T08:24:09","guid":{"rendered":"https:\/\/www.compositestoday.com\/?p=14995"},"modified":"2019-12-10T08:24:09","modified_gmt":"2019-12-10T08:24:09","slug":"kentucky-university-coal-carbon-fibre","status":"publish","type":"post","link":"https:\/\/www.compositestoday.com\/2019\/12\/kentucky-university-coal-carbon-fibre\/","title":{"rendered":"Kentucky University gets Funding to turn Coal into Carbon Fibre"},"content":{"rendered":"

The University of Kentucky Center for Applied Energy Research has received a United States Department of Energy<\/a> grant to transform coal tar pitch into carbon fibre for use in aerospace<\/a>, automotive<\/a>, sporting goods, and other high-performance materials.<\/p>\n

The $1.8 million project sees researchers covert coal tar, a byproduct from coke production taken from the steel industry into mesophase pitch, a liquid crystal. This can then be spun and thermally converted to carbon fibre. If successful, this new carbon fibre<\/a> product could increase the value of coal tar<\/a> pitch by 5- to 55-times of its current value, and find application in high stiffness, low-weight composites in applications such as passenger cars and light-duty trucks.<\/p>\n

This is an exciting project for our research team. Being able to efficiently upgrade a coal byproduct into high-value carbon fibre for composites would be a terrific benefit to Kentucky\u2019s and the nation\u2019s manufacturers. It would add significantly to the coal value chain, further establishing Kentucky as a global leader in carbon fibre research and development. Matt Weisenberger, Associate Director for Materials Technologies at UK CAER<\/cite><\/p><\/blockquote>\n

The grant will support the development of simplified multifilament melt spinning of the mesophase pitch to produce \u2018green\u2019 (not yet carbonised) fibres, and subsequent continuous thermal processing, or oxidization, of those green fibres. The research team will then create woven preforms from the fibres for composites manufacture, as well as chopped carbon fibre for filled thermoplastics<\/a> suitable for injection moulding<\/a>.<\/p>\n

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