The milestone illustrates Epsilon’s filament winding, pultrusion and postprocessing capacity maturation and complete ...

Reusable silicone technology involves the use of custom-made silicone membranes which now succeed the use ofconsumable traditional vacuum ‘bags’ or the B counter mould. The silicone membrane is ...

FibreLINE automates the entire preforming process. It cuts, sorts and sequences large plys of carbon fibre and other composite material before shaping and placing it onto a mould where it is inspected ...

Carbon Fiber Max™ expands its patent portfolio with a next-generation aerospace composite designed for electric ...

Thermoplastic composites manufacturing and smart preforming enables “one-minute” manufacturing of composite parts. In addition, thermoplastic composites are easier to recycle than their thermoset ...

Despite the versatility of fluoropolymers in demanding, high-performance applications under harsh environments, many of them have been classified as per- and polyfluoroalkyl substances (PFAS) and are ...

The material-interface-structure-function/performance coupled design method and the additive/formative/subtractive composite manufacturing method provide new ...

A research project undertaken by the Bristol Composites Institute (BCI) at the University of Bristol used laser profile sensors from Micro-Epsilon to detect defects formed during the composites ...

TuFF — Tailored Universal Feedstock for Forming — is a strong, highly aligned, short-fiber composite material that can be made from many fiber and resin combinations. Created at the University of ...

Chinese scientists have developed a composite manufacturing method that improves spacecraft structural strength by 26% while reducing weight, potentially lowering launch costs and increasing payload ...