Advanced Materials R&D Team Leader, Dr Dimitris Presvytis said: “We have used our expertise in dispersing nanomaterials in thermoplastics and resins to improve the properties of a carbon fibre composite, this is an exciting development for the company.”
Initial independent testing with unidirectional carbon fibres gave encouraging results. Adding 1% wt Elicarb Materials Grade Graphene in the epoxy resin in the manufacturing of a carbon fibre laminate improved flexural strength and modulus. This gave the company motivation to move the development one step further and manufacture a commercially relevant carbon fibre prepreg (a woven cloth of carbon fibre pre-impregnated with resin). This prototype was prepared by working collaboratively with an established and experienced third party.
Thomas Swan will continue to develop, test and improve these materials and will work with selected partners to turn these into products over the coming months. Samples of these materials are going to be made available to companies interested in working with Thomas Swan.
The Advanced Materials Division Commercial Director, Professor Stephen Bennington said: “Improving the strength of these materials is exciting, but we know from tests on the resins alone that we are also likely to have increased thermal conductivity, chemical resistance and electrostatic discharge properties.”
Thomas Swan’s Managing Director, Harry Swan, added: “This represents an exciting step forward for Thomas Swan’s Advanced Materials division; these materials have a range of potential applications, including lighter body parts in high performance automotive applications, sporting equipment and perhaps ultimately in aerospace.”
Companies: Thomas Swan