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Showing 1 – 10 of 162 resultsSiemens Xcelerator Platform helps extend racing innovation to production bikes, reduces time for complex composite parts and enables remote design/3D printing at track, digital twin and faster development.
Research shows that hot acetic acid cleaves all key bonds within epoxy-amine resins and stabilizes polymer chemical components, making it an effective EOL recycling process for carbon fiber and beyond.
CDCQ, LxSim, Addcomp and Argon 18 collaborate to optimize a carbon fiber/PA6 bike seat post, democratizing AFP and demonstrating materials and process for future designs and production.
Fibionic’s fibionic fiber placement (FPP) technology enables the development of “fiber skeletons,” semi-finished parts suitable for any application that incorporates composite reinforcement exactly where it is needed.
The CLX Sprint and CLX III bikes are being marketed as the “fastest race wheels,” with co-developed aero-shaped spokes that save 96.6 grams in weight and increase strength by 20%.
Swinburne University of Technology’s facilities and research expertise have attained milestone developments in a UAV wingbox, customized carbon fiber components, digital manufacturing and 3D printing.
Both partners bring composites expertise to collaboration on new racing bike designs, pushing the limits of racing bikes with integration of bio-based materials.
CAMX 2025 showcased the power of collaboration and purposeful innovation, a clear reminder that the composites industry is all about human potential.
CompoTech features its CDuro Epona mountain bike fitted with custom suspension forks, manufactured using its AFL winding and integrated loop technologies.
Wheel brand Parcours reveals composite bike wheels using Hypetex colored carbon fiber to achieve aesthetic, lightweight and performance goals.