Mechanical performance of carbon fibre-reinforced composites based on stitched and bindered preforms

The cost-reduced manufacturing of complex textile preforms suitable for liquid composite moulding of high-performance fibre-reinforced polymer composites is of significant importance for today’s aerospace industry. In this study, stitching technologies combined with thermally induced preform stabilisation by incorporation of thermoplastic binder-materials are demonstrated to be one of the key approaches towards achieving this challenging goal. However, the potential reduction of the in-plane mechanical composite properties induced by stitching and/or added binders may outweigh the cost savings and the anticipated improvements of the out-of-plane performance. In order to obtain excellent overall mechanical composite properties, innovative low-melting temperature or soluble thermoplastic stitching yarns as well as their corresponding binder non-woven mats were utilised to prepare novel preforms for non-crimped carbon fibre-reinforced epoxy composites; effectively allowing an enhanced stabilisation of the dry performs by thermobonding. These promising results emphasize the feasibility and the benefits of adopting advanced stitching technologies for high-performance composites.