Disruptive Composite Materials Developed Via Vancouver Company & University Of British Columbia

Up coming next generation of polymer materials creates more durable and recycle-ready composites

ALUULA Composites is collaborating with the University of British Columbia (UBC) Composite Research Network to develop world-first recycling applications for high-performance, UHMWPE-based composite materials. The new material has been recently featured in Air&Cosmos, Composites World, Innovation in Textiles, and Plastics Today.

“When we first revealed our work with ALUULA to the kitesurfing world, there was reasonable and valid debate as to whether the hype would really match up to the material’s potential, and to the performance levels that we were promising. Happily, as has since been proven and documented, the hype has gone beyond everyone’s expectations.” Ocean Rodeo Kitesurfing

According to a report from the FMI, the global advanced polymer composites market is projected to register an average-paced CAGR of 5.9% during the forecast period. The current valuation of the market is US$ 11.12 Billion in 2022.

The value of the advanced polymer composites market is anticipated to surpass a valuation of US$ 19.73 Billion by the year 2032. The experts of Future Market Insights have recorded a historical market valuation of US$ 10.5 Billion during the base year.

Composite materials have been using the same process of gluing together different core layers and outer films to create composites used in a wide range of product applications.

“Between the interest in our materials generated from the ISPO Awards and the transformational effect our composites have had in the wind sport sector (via Ocean Rodeo Kitesurfing products), Aluula is now in co-development conversations with industry leaders for a broad range of uses and applications. It is an extremely exciting time for our entire team” said Aluula COO John Zimmerman.

The new composites are up to 50% lighter than competitive materials while delivering equal or greater strength.

This process has produced many innovative composites, but their performance has plateaued. A new generation of composite materials, using novel chemistry and innovative manufacturing techniques develops new ways to assemble and fuse high-tech fibers, and advanced space-age films together. By bonding materials at the molecular level, the next-gen of polymers is not only creating extremely light, strong, and durable composites, but materials that are recycled readily.

• High-performance polymer composites open up lucrative growth prospects for the manufacturers.
• Are a new way to bond high-tech fibers and advanced space-age films creates the next-gen of polymers.
• Are more durable and recycle readily next-gen materials create unlimited opportunities for the composites materials market.

Featured image via Aluula- Panels made with recycled polymer composites reportedly are 10 times stronger than panels molded from virgin resin.