Stand 58 | 10–13 July 2025 | Goodwood Festival of Speed
Composites UK is proud to announce its debut at the Goodwood Festival of Speed with a dedicated composites pavilion at Stand 58, running from 10–13 July 2025.
The pavilion will showcase some of the UK’s most forward-thinking companies in the field of advanced composite materials and engineering.
This year, four outstanding member companies will be exhibiting alongside Composites UK:
- Airtech Advanced Materials UK – A leading manufacturer of vacuum bagging and composite tooling materials, offering high-performance solutions for prepreg/autoclave, resin infusion, and wet lay-up processes.
- Base Materials – Experts in high-performance syntactic materials, supporting critical applications across automotive, aerospace, marine, rail, and more. Their technical insight and in-house capabilities make them a trusted partner from concept to completion.
- Dymag Performance Wheels – Innovators in lightweight carbon, magnesium, and alloy wheels for motorcycle and automotive markets. Their latest breakthrough, the BOXSTROM® carbon composite wheel, sets new standards in performance and design.
- Renewable Field Services – A UK leader in wind turbine blade inspection, repair, and maintenance. With extensive experience onshore and offshore, their engineer-led team ensures the long-term performance of renewable energy assets across the UK and Europe.
The Composites UK Pavilion offers visitors a unique opportunity to see how composite materials are driving innovation across motorsport, automotive, aerospace, energy, and beyond.
Claire Whysall, Marketing and Communications Manager at Composites UK, said: “We’re delighted to bring our members together at such a high-profile event. The Goodwood Festival of Speed provides a fantastic platform to showcase the UK’s leadership in composite materials and their real-world applications in performance and sustainability.”
Join us at Stand 58 to meet the teams, explore cutting-edge technologies, and discover the future of composites in action.
For more information, click here.