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Role of fibre fragmentation on pseudo-ductility of thin-ply [±277/0]s carbon fibre laminates with high modulus 0° plies under compressive and flexural loading

Role of fibre fragmentation on pseudo-ductility of thin-ply [±277/0]s carbon fibre laminates with high modulus 0° plies under compressive and flexural loading
Role of fibre fragmentation on pseudo-ductility of thin-ply [±277/0]s carbon fibre laminates with high modulus 0° plies under compressive and flexural loading
Pseudo-ductile tensile, compressive and flexural behaviour was achieved in a thin-ply carbon fibre [±277/0]s laminate with different fibre types in the angle plies and 0° plies. The laminate with the present layup was tested in both tension and compression, the latter through an unconventional indirect compressive test method using a sandwich beam configuration and the compressive stress was derived by considering the change in position of the neutral axis. The tests demonstrated for the first time that pseudo-ductility and progressive failure can be obtained under compressive loading on thin-ply [±θm/0n]s laminates using a combination of intermediate modulus and high modulus fibre prepregs. Delamination was suppressed throughout the testing and only occurred at the final fracture of the angle plies. Multiple fibre fractures of the 0° plies were obtained within the laminate with the support of the surrounding angle plies in both loading cases. When the laminate was subjected to monolithic flexure, a gradual failure and significant amount of non-linearity occurred. This was primarily due to 0° ply fragmentation on both the compressive and tensile sides of the beam; the fragmentation on both sides resulted in shifts of the neutral axis, retarding the strain increase on the compressive side, delaying the final failure and achieving a higher failure strain in flexure than in compression.
A. Carbon fibres, Angle-plies, B. Non-linear behavior, C. damage mechanics, Testing method
0266-3538
Wu, Xun
1e74bd51-8916-49ea-883b-371108be7ea5
Fuller, Jonathan D.
9c92d162-1b1f-4458-8997-75f99517d07f
Wisnom, Michael R.
93bec88e-5256-49f2-9869-5ac551e18d7a
Wu, Xun
1e74bd51-8916-49ea-883b-371108be7ea5
Fuller, Jonathan D.
9c92d162-1b1f-4458-8997-75f99517d07f
Wisnom, Michael R.
93bec88e-5256-49f2-9869-5ac551e18d7a

Wu, Xun, Fuller, Jonathan D. and Wisnom, Michael R. (2020) Role of fibre fragmentation on pseudo-ductility of thin-ply [±277/0]s carbon fibre laminates with high modulus 0° plies under compressive and flexural loading. Composites Science and Technology, 199, [108377]. (doi:10.1016/j.compscitech.2020.108377).

Record type: Article

Abstract

Pseudo-ductile tensile, compressive and flexural behaviour was achieved in a thin-ply carbon fibre [±277/0]s laminate with different fibre types in the angle plies and 0° plies. The laminate with the present layup was tested in both tension and compression, the latter through an unconventional indirect compressive test method using a sandwich beam configuration and the compressive stress was derived by considering the change in position of the neutral axis. The tests demonstrated for the first time that pseudo-ductility and progressive failure can be obtained under compressive loading on thin-ply [±θm/0n]s laminates using a combination of intermediate modulus and high modulus fibre prepregs. Delamination was suppressed throughout the testing and only occurred at the final fracture of the angle plies. Multiple fibre fractures of the 0° plies were obtained within the laminate with the support of the surrounding angle plies in both loading cases. When the laminate was subjected to monolithic flexure, a gradual failure and significant amount of non-linearity occurred. This was primarily due to 0° ply fragmentation on both the compressive and tensile sides of the beam; the fragmentation on both sides resulted in shifts of the neutral axis, retarding the strain increase on the compressive side, delaying the final failure and achieving a higher failure strain in flexure than in compression.

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More information

e-pub ahead of print date: 28 July 2020
Published date: 5 August 2020
Additional Information: Publisher Copyright: © 2020 Elsevier Ltd
Keywords: A. Carbon fibres, Angle-plies, B. Non-linear behavior, C. damage mechanics, Testing method

Identifiers

Local EPrints ID: 505706
URI: http://eprints.soton.ac.uk/id/eprint/505706
DOI: doi:10.1016/j.compscitech.2020.108377
ISSN: 0266-3538
PURE UUID: 387f1615-a406-4ca3-88ae-49e714c06e87
ORCID for Xun Wu: ORCID iD orcid.org/0000-0003-2862-6921

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Date deposited: 16 Oct 2025 16:55
Last modified: 17 Oct 2025 02:21

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Author: Xun Wu ORCID iD
Author: Jonathan D. Fuller
Author: Michael R. Wisnom

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