An investigation into fatigue behaviour and damage progression in pseudo-ductile thin-ply angle-ply laminates
An investigation into fatigue behaviour and damage progression in pseudo-ductile thin-ply angle-ply laminates
This paper presents a detailed investigation on the fatigue response and damage progression in pseudo-ductile thin-ply angle-ply laminates with two configurations: an intermediate modulus-high modulus fibre combined IM-HM [±277/0]s and a standard modulus SM-SM [±266/0]s laminate. 80% of the “yield” stress was found to be the maximum stress for both laminates, where they can withstand 106 cycles without obvious damage or stiffness reduction. When laminates containing pre-fractured 0° plies were loaded in fatigue, both of the laminates showed a delamination dominated damage mode: the delamination initiated from the pre-fractured 0° plies and propagated at the interface between the 0° and angle plies with increasing number of cycles. An estimated delamination growth rate based on the stiffness reduction and delamination initiated from 0° ply fracture are also discussed. The IM-HM laminate with broken 0° fibres can still withstand fatigue loading at 80% severity without further modulus reduction or damage progression, whilst the SM-SM failed in delamination within a small number of cycles.
Carbon fibre, Delamination, Fatigue, Thin plies
Wu, X.
1e74bd51-8916-49ea-883b-371108be7ea5
Fuller, J.D.
9c92d162-1b1f-4458-8997-75f99517d07f
Wisnom, M.R.
655f9d97-0d4c-4654-9b0e-3e5150991e42
13 June 2021
Wu, X.
1e74bd51-8916-49ea-883b-371108be7ea5
Fuller, J.D.
9c92d162-1b1f-4458-8997-75f99517d07f
Wisnom, M.R.
655f9d97-0d4c-4654-9b0e-3e5150991e42
Wu, X., Fuller, J.D. and Wisnom, M.R.
(2021)
An investigation into fatigue behaviour and damage progression in pseudo-ductile thin-ply angle-ply laminates.
Composites Part A: Applied Science and Manufacturing, 149, [106518].
(doi:10.1016/j.compositesa.2021.106518).
Abstract
This paper presents a detailed investigation on the fatigue response and damage progression in pseudo-ductile thin-ply angle-ply laminates with two configurations: an intermediate modulus-high modulus fibre combined IM-HM [±277/0]s and a standard modulus SM-SM [±266/0]s laminate. 80% of the “yield” stress was found to be the maximum stress for both laminates, where they can withstand 106 cycles without obvious damage or stiffness reduction. When laminates containing pre-fractured 0° plies were loaded in fatigue, both of the laminates showed a delamination dominated damage mode: the delamination initiated from the pre-fractured 0° plies and propagated at the interface between the 0° and angle plies with increasing number of cycles. An estimated delamination growth rate based on the stiffness reduction and delamination initiated from 0° ply fracture are also discussed. The IM-HM laminate with broken 0° fibres can still withstand fatigue loading at 80% severity without further modulus reduction or damage progression, whilst the SM-SM failed in delamination within a small number of cycles.
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More information
Accepted/In Press date: 5 June 2021
e-pub ahead of print date: 9 June 2021
Published date: 13 June 2021
Keywords:
Carbon fibre, Delamination, Fatigue, Thin plies
Identifiers
Local EPrints ID: 501247
URI: http://eprints.soton.ac.uk/id/eprint/501247
ISSN: 1359-835X
PURE UUID: a3dc794f-5bbc-4aed-bd11-2fdb3125a7c6
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Date deposited: 28 May 2025 16:30
Last modified: 29 May 2025 02:17
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Contributors
Author:
X. Wu
Author:
J.D. Fuller
Author:
M.R. Wisnom
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