On static and fatigue strength determination of carbon fibre/epoxy composites Part 1: experiments
On static and fatigue strength determination of carbon fibre/epoxy composites Part 1: experiments
This work seeks to investigate the static and fatigue properties and the failure mechanisms of T300/QY8911 carbon-fibre-reinforced composite laminates with different layups to optimize the stacking sequence effect. Three different layups have been studied, namely, [45/0(2)/–45/90(2)/–45/0/45/90]s, [45/–45/0/–45/0/45/90/45/0/–45]s and [45/0/–45/0/45/0/45/0/90/0]s. The results for static strength and fatigue residual strength under different fatigue stress amplitudes are evaluated and compared with each other. The damage and failure mechanisms of the composite laminates are discussed. It is observed that all tension–tension fatigue damage patterns of the notched laminates are similar while the tension–tension fatigue properties vary with the laminate layup. The reduction of stress concentration caused by the tension–tension fatigue damage leads to an improvement of the residual strength of the notched specimens in contrast to their static strength properties. The damage mechanics of the notched laminates under compression–compression loading are more complex than those of the tension–tension fatigue specimens; their damage patterns are influenced by the test clamping fixture, the layup, the size of specimens and the diameter of the hole. The residual strengths are lower than those of the specimens without fatigue damage. It is verified that in a high-temperature and moisture environment, there is a decrease in static compression strength. The results of this study provide an insight into fatigue damage development in composites and constitute a fundamental basis for the development of a strain-based residual strength model.
carbon-fibre-reinforced composites, notched specimens, static strength, residual fatigue strength, tension-tension fatigue loading, compression fatigue loading
529-540
Xiong, J.J.
785d6bd7-e6a1-472c-ae43-484f28d646eb
Shenoi, R.A.
a37b4e0a-06f1-425f-966d-71e6fa299960
Wang, S.P.
94958012-c719-4190-96e3-c42c8fc19274
Wang, W.B.
0894782c-7f76-43e2-b735-136a244b8d6e
2004
Xiong, J.J.
785d6bd7-e6a1-472c-ae43-484f28d646eb
Shenoi, R.A.
a37b4e0a-06f1-425f-966d-71e6fa299960
Wang, S.P.
94958012-c719-4190-96e3-c42c8fc19274
Wang, W.B.
0894782c-7f76-43e2-b735-136a244b8d6e
Xiong, J.J., Shenoi, R.A., Wang, S.P. and Wang, W.B.
(2004)
On static and fatigue strength determination of carbon fibre/epoxy composites Part 1: experiments.
The Journal of Strain Analysis for Engineering Design, 39 (5), .
(doi:10.1243/0309324041896452).
Abstract
This work seeks to investigate the static and fatigue properties and the failure mechanisms of T300/QY8911 carbon-fibre-reinforced composite laminates with different layups to optimize the stacking sequence effect. Three different layups have been studied, namely, [45/0(2)/–45/90(2)/–45/0/45/90]s, [45/–45/0/–45/0/45/90/45/0/–45]s and [45/0/–45/0/45/0/45/0/90/0]s. The results for static strength and fatigue residual strength under different fatigue stress amplitudes are evaluated and compared with each other. The damage and failure mechanisms of the composite laminates are discussed. It is observed that all tension–tension fatigue damage patterns of the notched laminates are similar while the tension–tension fatigue properties vary with the laminate layup. The reduction of stress concentration caused by the tension–tension fatigue damage leads to an improvement of the residual strength of the notched specimens in contrast to their static strength properties. The damage mechanics of the notched laminates under compression–compression loading are more complex than those of the tension–tension fatigue specimens; their damage patterns are influenced by the test clamping fixture, the layup, the size of specimens and the diameter of the hole. The residual strengths are lower than those of the specimens without fatigue damage. It is verified that in a high-temperature and moisture environment, there is a decrease in static compression strength. The results of this study provide an insight into fatigue damage development in composites and constitute a fundamental basis for the development of a strain-based residual strength model.
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Published date: 2004
Keywords:
carbon-fibre-reinforced composites, notched specimens, static strength, residual fatigue strength, tension-tension fatigue loading, compression fatigue loading
Identifiers
Local EPrints ID: 23704
URI: http://eprints.soton.ac.uk/id/eprint/23704
ISSN: 0309-3247
PURE UUID: 8d0b76f0-24ae-4e1f-8f27-1b9c64e21b3d
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Date deposited: 23 Mar 2006
Last modified: 15 Mar 2024 06:49
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Author:
J.J. Xiong
Author:
S.P. Wang
Author:
W.B. Wang
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