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Multi-functional application of recycled carbon fibres in hybrid composites for notch sensitivity reduction and damage monitoring

Multi-functional application of recycled carbon fibres in hybrid composites for notch sensitivity reduction and damage monitoring
Multi-functional application of recycled carbon fibres in hybrid composites for notch sensitivity reduction and damage monitoring
It is challenging to reuse recycled carbon fibres (rCF) alone as reinforcement material in composites for structural application due to its discontinuous and non-aligned fibre architecture. This study investigates innovative usage of rCF when hybridized with other reinforcement fibres in a hybrid composite for multi-functional application. A rCF non-woven is embedded in an E-glass fabric composite laminate to demonstrate its multi-functionality in open-hole specimens with various hole sizes under monotonic tensile loading. Instead of brittle failure, the rCF fails in a progressive manner due to the in-situ effect offered by the neighbouring glass fibre sublaminates. Following damage initiation in the rCF layer, delamination takes place along the rCF and glass fabric interfaces, enabling stress redistribution around the hole. This leads to reduced stress concentration, resulting in a notch-insensitive hybrid composite when compared to the non-hybrid glass fabric composite. By monitoring the change in electrical resistance of the rCF layer, the progressive damage events around the hole can be inferred. Regardless of the hole size, a simple damage self-sensing system can be developed to inform the damage severity of the hybrid composite. In this study, the rCF layer gives a damage tolerant notched composite and simultaneously offers damage monitoring functionality.
Recycled carbon fibre, hybrid composites, notched strength, multifunctional composites
0263-8223
Zhang, Fan
22d94cb4-007c-4287-b1b9-2b9c47a6d551
Ling, Ivan
c985f2ee-c76b-4559-b9ff-9bcddda8a3cb
Jiang, Liudi
374f2414-51f0-418f-a316-e7db0d6dc4d1
Zhang, Yonggang
20425e31-ca21-4ae3-baa8-da6c063dcf57
Gan, Khong Wui
b0c1e988-d375-4bbc-acdc-c77a6da1f904
Zhang, Fan
22d94cb4-007c-4287-b1b9-2b9c47a6d551
Ling, Ivan
c985f2ee-c76b-4559-b9ff-9bcddda8a3cb
Jiang, Liudi
374f2414-51f0-418f-a316-e7db0d6dc4d1
Zhang, Yonggang
20425e31-ca21-4ae3-baa8-da6c063dcf57
Gan, Khong Wui
b0c1e988-d375-4bbc-acdc-c77a6da1f904

Zhang, Fan, Ling, Ivan, Jiang, Liudi, Zhang, Yonggang and Gan, Khong Wui (2025) Multi-functional application of recycled carbon fibres in hybrid composites for notch sensitivity reduction and damage monitoring. Composite Structures, 372, [119574].

Record type: Article

Abstract

It is challenging to reuse recycled carbon fibres (rCF) alone as reinforcement material in composites for structural application due to its discontinuous and non-aligned fibre architecture. This study investigates innovative usage of rCF when hybridized with other reinforcement fibres in a hybrid composite for multi-functional application. A rCF non-woven is embedded in an E-glass fabric composite laminate to demonstrate its multi-functionality in open-hole specimens with various hole sizes under monotonic tensile loading. Instead of brittle failure, the rCF fails in a progressive manner due to the in-situ effect offered by the neighbouring glass fibre sublaminates. Following damage initiation in the rCF layer, delamination takes place along the rCF and glass fabric interfaces, enabling stress redistribution around the hole. This leads to reduced stress concentration, resulting in a notch-insensitive hybrid composite when compared to the non-hybrid glass fabric composite. By monitoring the change in electrical resistance of the rCF layer, the progressive damage events around the hole can be inferred. Regardless of the hole size, a simple damage self-sensing system can be developed to inform the damage severity of the hybrid composite. In this study, the rCF layer gives a damage tolerant notched composite and simultaneously offers damage monitoring functionality.

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More information

Accepted/In Press date: 19 August 2025
e-pub ahead of print date: 21 August 2025
Published date: 27 August 2025
Keywords: Recycled carbon fibre, hybrid composites, notched strength, multifunctional composites

Identifiers

Local EPrints ID: 505695
URI: http://eprints.soton.ac.uk/id/eprint/505695
ISSN: 0263-8223
PURE UUID: 17223f96-e649-49c5-b9c4-b15f5c343705
ORCID for Ivan Ling: ORCID iD orcid.org/0000-0003-0914-1072
ORCID for Liudi Jiang: ORCID iD orcid.org/0000-0002-3400-825X

Catalogue record

Date deposited: 16 Oct 2025 16:52
Last modified: 17 Oct 2025 02:17

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Contributors

Author: Fan Zhang
Author: Ivan Ling ORCID iD
Author: Liudi Jiang ORCID iD
Author: Yonggang Zhang
Author: Khong Wui Gan

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