CIMComp - The EPSRC Future Composites Manufacturing Research Hub

Aims

The project objective is to develop automation of a towpregging tapeline, producing low-cost powder-based epoxy carbon fibre composite with a high deposition rate for use on automated fibre placement (AFP) machines. The following milestones describe the project steps to achieve success.

Initial risk mitigation: Produce carbon fibre tape “as is” (using the current tapeline and state of the art technology) and run initial trials with Coriolis very versatile AFP machine Csolo©.
Instrumentation: Improve the reliability, control and accuracy of the tapeline by adding several controllers/readers (IR temperature sensors, tachometers, tensiometers) and by centralising all data output.
HMI: Include an overall control system (spool speed and tension, electrostatic gun deposition parameters) to ensure the full automation and stability of the process.
Optimisation: Manufacture AFP-grade tape with controlled FVF, temperature and tension and optimise parameters to obtain the best mechanical properties. Composite test plates will be manufactured and compared at UoE.
Development: Plates and more complex 3D structures will be manufactured using the optimized version of the tape on the Csolo© machine and samples will be compared with their commercial equivalent.
Dissemination: The NCC will host a seminar in order to facilitate dissemination and routes to applications.

Work stream 1: Powder-Epoxy Carbon Fibre Towpreg for High Speed, Low-Cost Automated Fibre Placement

Aims

Evidence of Impact