Pseudo-ductile compressive behaviour of unidirectional thin-ply carbon /glass fibre-epoxy hybrid composites
Pseudo-ductile compressive behaviour of unidirectional thin-ply carbon /glass fibre-epoxy hybrid composites
Favourable pseudo-ductile behaviour under compressive loading with a knee-point was achieved for unidirectional (UD) interlayer hybrids made of thin-ply high modulus carbon/epoxy (CF/EP) layers sandwiched between standard thickness glass/epoxy (GF/EP). The UD thin-ply hybrids were tested under two loading scenarios: 1. Direct compressive loading, 2. Four-point bending loading. In both cases, the damage mechanisms responsible for the pseudo-ductile behaviour are fragmentation of the carbon layer and localised delamination, which later propagates unstably. The final failure of the UD thin-ply hybrid composites examined in four-point bending loading occurs at a higher strain than that under direct compressive loading. This is due to the strain gradient in bending, which results in a lower energy release rate than in direct compression. An increasing carbon layer thickness reduces the final delamination failure strain of the UD thin-ply hybrid composites in compression, but the knee-point strain is not affected.
Compression, Fragmentation, Hybrid Composites, Thin-Ply, Unidirectional
Suwarta, Putu
03f07d7c-4d52-42a3-820e-8b8a9be9857f
Wisnom, Michael R.
93bec88e-5256-49f2-9869-5ac551e18d7a
Fotouhi, Mohamad
71cada36-1cae-451d-8e3a-ab040cc7551a
Wu, Xun
1e74bd51-8916-49ea-883b-371108be7ea5
Czel, Gergely
a1f54093-b1d0-45c2-9468-1761f8899c2a
18 April 2025
Suwarta, Putu
03f07d7c-4d52-42a3-820e-8b8a9be9857f
Wisnom, Michael R.
93bec88e-5256-49f2-9869-5ac551e18d7a
Fotouhi, Mohamad
71cada36-1cae-451d-8e3a-ab040cc7551a
Wu, Xun
1e74bd51-8916-49ea-883b-371108be7ea5
Czel, Gergely
a1f54093-b1d0-45c2-9468-1761f8899c2a
Suwarta, Putu, Wisnom, Michael R., Fotouhi, Mohamad, Wu, Xun and Czel, Gergely
(2025)
Pseudo-ductile compressive behaviour of unidirectional thin-ply carbon /glass fibre-epoxy hybrid composites.
Composites Part A: Applied Science and Manufacturing, 195, [108877].
(doi:10.1016/j.compositesa.2025.108877).
Abstract
Favourable pseudo-ductile behaviour under compressive loading with a knee-point was achieved for unidirectional (UD) interlayer hybrids made of thin-ply high modulus carbon/epoxy (CF/EP) layers sandwiched between standard thickness glass/epoxy (GF/EP). The UD thin-ply hybrids were tested under two loading scenarios: 1. Direct compressive loading, 2. Four-point bending loading. In both cases, the damage mechanisms responsible for the pseudo-ductile behaviour are fragmentation of the carbon layer and localised delamination, which later propagates unstably. The final failure of the UD thin-ply hybrid composites examined in four-point bending loading occurs at a higher strain than that under direct compressive loading. This is due to the strain gradient in bending, which results in a lower energy release rate than in direct compression. An increasing carbon layer thickness reduces the final delamination failure strain of the UD thin-ply hybrid composites in compression, but the knee-point strain is not affected.
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Accepted/In Press date: 18 March 2025
e-pub ahead of print date: 21 March 2025
Published date: 18 April 2025
Keywords:
Compression, Fragmentation, Hybrid Composites, Thin-Ply, Unidirectional
Identifiers
Local EPrints ID: 501032
URI: http://eprints.soton.ac.uk/id/eprint/501032
ISSN: 1359-835X
PURE UUID: 6b8f7d34-67c9-49c2-9230-e06a0fe7fdc4
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Date deposited: 21 May 2025 16:30
Last modified: 30 Aug 2025 02:20
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Contributors
Author:
Putu Suwarta
Author:
Michael R. Wisnom
Author:
Mohamad Fotouhi
Author:
Xun Wu
Author:
Gergely Czel
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