AMRC & Prodrive Collaborate to Pioneer Recyclable Composite Manufacturing

Prodrive Composites Ltd. (Milton Keynes, UK), is working with lightweighting and materials researchers at the University of Sheffield Advanced Manufacturing Research Centre (AMRC, Sheffield, UK) to advance its processes for manufacturing recyclable composite components.

Prodrive Composites develops engineering solutions for automotive, aerospace and marine industries, and also designs and manufactures advanced lightweight composites for a wide range of applications across automotive, motorsport, aerospace, marine, defence and other specialist sectors. The company has been collaborating with the AMRC on its P2T (Primary To Tertiary) process, which is used for manufacturing recyclable composite components that can satisfy end-of-life requirements (specified in Directive 2000/53/EC) without any compromise in the performance of the original parts. The company claims the approach simplifies recycling and endows a composite material with the potential to fulfil three or more useful lifetimes.

Hannah Tew, partnership lead at the AMRC Composite Centre, says her team has been working with Prodrive Composites to further advance its recyclable composite process closer to full production. This has primarily focused on allowing for automation; making it possible to achieve medium to high volumes at substantially lower costs; looking at the recyclable nature of the materials used and increasing the technology’s attraction to other industries.

“The results from our initial press trials look promising and we’re very much looking forward to supporting Prodrive in automating the process going forward,” says Tew

According to Prodrive, as P2T composites do not require heat or pressure during manufacture, there is no need for an autoclave – thus reducing costs and enabling the scaling up of production without major investment. The process uses a reactive thermoplastic resin instead of a thermosetting type; a plastic monomer is reacted with a catalyst in the presence of the fibers to produce a cured laminate. 

Prodrive believes they are the first to develop this technique with recycled fibers, which emerged through a development program with an automotive OEM customer who required a high-performance structural material with lower environmental impact than conventional composites.

John McQuilliam, chief engineer at Prodrive Composites says:

Prodrive Composites says that the advantages of composites produced by the P2T process is that they can be recycled multiple times. The highest mechanical properties are obtained during first use of the virgin fibers, enabling highly-loaded structural items to be manufactured. At the part’s end-of-life, the fibers and potentially the resin can be recycled, supplying  much of the raw material for a secondary part, such as a body panel. When the secondary part reaches the end of its life, being thermoplastic, it too can be chopped and remolded into new parts with properties suitable for 3D solid components. This tertiary part can itself be recycled several times into lower grade parts.

The ongoing research between the AMRC and Prodrive Composites is set to expand over the coming year.