The Universal Selection Source: Plastics & Elastomers

Industry News

Hexcel to Create Composite Fabrics to Replace Metal in Large Auto & Aero Structures

Published on 2017-09-28. Author : SpecialChem

Hexcel has announced that it will be launching a new Government-backed £7.4 million research and development project, MAXIM, and expanding its manufacturing facility in Leicester.

Government-backed Project for Cost-effective Materials


The four-year Multi AXial Infused Materials (MAXIM) project is backed by the UK Aerospace Technology Institute (ATI) and match-funded by the Department for Business Energy and Industrial Strategy. MAXIM project will be responsible for developing progressive, cost-effective materials and manufacturing solutions for large aerospace and automotive composite structures.

Hexcel's Carbon Fiber Fabric
Hexcel's Carbon Fiber Fabric

Business Minister Richard Harrington said:
“MAXIM is a welcome investment in the Midlands economy and the UK aerospace and automotive sectors, supporting the type of high-skilled jobs we are committed to delivering through our Industrial Strategy.

“This project will build our expertise and reputation in this cutting-edge field, delivering world-leading research and development on the production of new composite materials for large structures. This will enable composite structures such as aircraft wings and car bodies to be manufactured faster, greener and more cost-effectively.”


Carbon Fiber Fabric Forms & Resins


Most large aerospace composite parts are made from “prepreg” where the carbon fibers and resins have already been combined. Converting this material into solid parts requires huge pressurized ovens, known as autoclaves. The MAXIM project will explore the manufacture of new carbon fiber fabric forms and resins that can be made into parts without using autoclaves. The aim is to enable complex metal structures, such as aircraft wings, to be manufactured more cost effectively and at faster production rates from composites.

Lighted Than Metal


Composite structures are around 25-30% lighter than metal equivalents, delivering positive environmental benefits. For example, by making aircraft lighter they will use less fuel and produce fewer CO2 emissions.

Hexcel is investing in expanding its Leicester plant by installing a state-of-the art machine for carbon non-crimp fabrics development and lab equipment for research into this technology. The company will be working closely with the National Composites Centre to leverage their expertise in material handling and part processing.

Thierry Merlot, Hexcel’s President – Aerospace, Europe/MEA/Asia Pacific said:
“Investment in this project in Leicester will allow Hexcel to advance key Out of Autoclave technologies that can provide a step change in the cost-effective production of composite parts for commercial aircraft and passenger cars. The project will support the development of new materials that the aerospace industry in particular can adopt with confidence to meet the high build rate requirements for future programs.”

PS: If you liked this News, you might enjoy our Plastics & Elastomers Industry Newsletter. All the Industry News delivered twice a week right to your inbox. Sign up here!


Source: Hexcel Corporation
Be the first to comment on "Hexcel to Create Composite Fabrics to Replace Metal in Large Auto & Aero Structures"

Leave a comment





Your email address and name will not be published submitting a comment or rating implies your acceptance to SpecialChem Terms & Conditions
Topas

Tutorial

Surface Treatment: How to Replace Chromic Acid

Discover a safer & cheaper alternative to chrome etching and get practical guidance to get started.

Sitecore.Data.Items.Item

Channel Alerts

Receive weekly digests on hot topics

Receive your alerts

Back to Top