Quasi-Z-directional toughening from un-bonded non-woven veil at interface in laminar composites

Inherent weak interfaces exist in large plate and shell composites made from carbon fibre pre-pregs and in any laminar structures bonded by epoxy adhesives due to absence of Z-directional toughening. In-situ Z-directional movements of short and flexible fibres from ultra-thin un-bonded non-woven Ara...

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Bibliographic Details
Published in:Composites communications 2017-12, Vol.6, p.20-24
Main Authors: Yuan, Bingyan, Wee, Eldon Pei Jie, Cheong, Jessie Li Kwok, Speelman, Anton, Long, Royce Tang Jia, Jiang, Bin, Li, Yan, Hu, Xiaozhi
Format: Article
Language:English
Subjects:
carbon fibre composite
interface
non-woven Aramid fibre veil
Quasi-Z-directional toughening
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Summary:Inherent weak interfaces exist in large plate and shell composites made from carbon fibre pre-pregs and in any laminar structures bonded by epoxy adhesives due to absence of Z-directional toughening. In-situ Z-directional movements of short and flexible fibres from ultra-thin un-bonded non-woven Aramid veils can potentially compensate for the inherent structural weakness. Incorporations of nano-fillers, carbon nano-tubes (CNT) and graphene can enhance the toughness of epoxy matrix, but cannot alter the interfacial structures of adhesive joints or provide effective Z-directional toughening. This study shows quasi-Z-directional fibre-bridging across carbon fibre plies can be created in-situ during composite processing from ultra-thin un-bonded non-woven Aramid veils between carbon fibre plies. CNT can also be incorporated into the un-bonded veils, and the hierarchical CNT and Aramid veil interfacial toughening is more effective as the hybrid fibre system can reinforce the epoxy matrix and alter the 3D interfacial structures between carbon fibre plies from movements of the free fibre ends. Un-bonded non-woven Aramid veils can be introduced during the pre-preging process. As a result, the common concept of interleaving will be changed, as the extra composite layup step is no longer required. The carbon fibre pre-pregs incorporated with ultra-thin non-woven veils can be used just as normal pre-pregs. Experiments on edge delamination in carbon fibre composites due to drilling and on adhesive bonding between aluminium plates are used to demonstrate the effectiveness of quasi-Z-directional toughening from un-bonded veils due to the out-of-plane movements of short flexible Aramid fibres. •Quasi-Z-direction toughening at composite interface is achieved using ultra-thin un-bonded non-woven Aramid veils;•Thin Aramid veils can be combined into the carbon fibre pre-preg process so that the extra step of interleaving can be removed in composite manufacturing;•CNT and thin Aramid veils can be combined together for more effective interfacial toughening
ISSN:2452-2139
2452-2139
DOI:10.1016/j.coco.2017.07.007