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Water absorption and low-energy impact and their role in the failure of ±45° carbon fibre composites

Feras Korkees Orcid Logo, Cris Arnold Orcid Logo, Sue Alston Orcid Logo

Polymer Composites, Volume: 39, Issue: 8, Pages: 2771 - 2782

Swansea University Authors: Feras Korkees Orcid Logo, Cris Arnold Orcid Logo, Sue Alston Orcid Logo

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DOI (Published version): 10.1002/pc.24269

Abstract

Defects in polymer composites associated with in-service damage induced by impact and those produced by environmental degradation due moisture absorption can have a significant influence on the mechanical properties and failure modes of the structures. This study evaluates the flexural characteristi...

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Published in: Polymer Composites
ISSN: 0272-8397
Published: Wiley 2018
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URI: https://cronfa.swan.ac.uk/Record/cronfa31405
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Abstract: Defects in polymer composites associated with in-service damage induced by impact and those produced by environmental degradation due moisture absorption can have a significant influence on the mechanical properties and failure modes of the structures. This study evaluates the flexural characteristics and failure modes of ±45° carbon/epoxy laminates under different conditions. The flexural strength and stiffness of these composites were inspected before and after subjecting to water absorption, drying, re-drying and low energy impact. It was observed that both absorbed water and low energy impact caused significant deformations and fractures which drastically reduced the load carrying ability of the ±45° carbon/epoxy laminates. Re-drying slightly improved the properties and reversed the effects of water.
College: Faculty of Science and Engineering
Issue: 8
Start Page: 2771
End Page: 2782