High performance ductile and pseudo-ductile polymer matrix composites: a review
High performance ductile and pseudo-ductile polymer matrix composites: a review
The ability of fibre reinforced composites to deform with a non-linear stress–strain response and gradual, rather than sudden, catastrophic failure is reviewed. The principal mechanisms by which this behaviour can be achieved are discussed, including ductile fibres, progressive fibre fracture and fragmentation, fibre reorientation, and slip between discontinuous elements. It is shown that all these mechanisms allow additional strain to be achieved, enabling a yield-like behaviour to be generated. In some cases, the response is ductile and in others pseudo-ductile. Mechanisms can also be combined, and composites which give significant pseudo-ductile strain can be produced. Notch sensitivity is reduced, and there is the prospect of increasing design strains whilst also improving damage tolerance. The change in stiffness or visual indications of damage can be exploited to give warning that strain limits have been exceeded. Load carrying capacity is still maintained, allowing continued operation until repairs can be made. Areas for further work are identified which can contribute to creating structures made from high performance ductile or pseudo-ductile composites that fail gradually.
Wisnom, M.R.
655f9d97-0d4c-4654-9b0e-3e5150991e42
Pimenta, S.
8b185680-85ab-4324-b082-a05c69f7e3c7
Shaffer, M.S.P.
f2e7a6d0-2b70-4b2c-bbd2-35e9e11b1ed3
Robinson, P.
aeda0c8f-9739-45c4-8f48-7e0ccce236e0
Potter, K.D.
93edb2b7-3872-4176-b39f-9bd7aea330f3
Hamerton, I.
356fb6af-3661-493e-af0e-198da5a3b7ff
Czél, G.
f6a95d06-75a3-4ca8-8912-098395a6eb80
Jalalvand, M.
21ef0df8-fc7c-4466-a2fc-ee98ed3408a2
Fotouhi, M.
71cada36-1cae-451d-8e3a-ab040cc7551a
Anthony, D.B.
1feadbcb-2358-4405-b06f-d676130ff445
Yu, H.
3e359a72-b33c-458c-8523-6067bcd0adaf
Longana, M.L.
11c0d998-673a-4014-ab5c-f2adb5d0c062
Wu, X.
1e74bd51-8916-49ea-883b-371108be7ea5
Bismarck, A.
72267294-806d-4f93-8e4b-f411dc6f2033
June 2024
Wisnom, M.R.
655f9d97-0d4c-4654-9b0e-3e5150991e42
Pimenta, S.
8b185680-85ab-4324-b082-a05c69f7e3c7
Shaffer, M.S.P.
f2e7a6d0-2b70-4b2c-bbd2-35e9e11b1ed3
Robinson, P.
aeda0c8f-9739-45c4-8f48-7e0ccce236e0
Potter, K.D.
93edb2b7-3872-4176-b39f-9bd7aea330f3
Hamerton, I.
356fb6af-3661-493e-af0e-198da5a3b7ff
Czél, G.
f6a95d06-75a3-4ca8-8912-098395a6eb80
Jalalvand, M.
21ef0df8-fc7c-4466-a2fc-ee98ed3408a2
Fotouhi, M.
71cada36-1cae-451d-8e3a-ab040cc7551a
Anthony, D.B.
1feadbcb-2358-4405-b06f-d676130ff445
Yu, H.
3e359a72-b33c-458c-8523-6067bcd0adaf
Longana, M.L.
11c0d998-673a-4014-ab5c-f2adb5d0c062
Wu, X.
1e74bd51-8916-49ea-883b-371108be7ea5
Bismarck, A.
72267294-806d-4f93-8e4b-f411dc6f2033
Wisnom, M.R., Pimenta, S., Shaffer, M.S.P., Robinson, P., Potter, K.D., Hamerton, I., Czél, G., Jalalvand, M., Fotouhi, M., Anthony, D.B., Yu, H., Longana, M.L., Wu, X. and Bismarck, A.
(2024)
High performance ductile and pseudo-ductile polymer matrix composites: a review.
Composites Part A: Applied Science and Manufacturing, 181, [108029].
(doi:10.1016/j.compositesa.2024.108029).
Abstract
The ability of fibre reinforced composites to deform with a non-linear stress–strain response and gradual, rather than sudden, catastrophic failure is reviewed. The principal mechanisms by which this behaviour can be achieved are discussed, including ductile fibres, progressive fibre fracture and fragmentation, fibre reorientation, and slip between discontinuous elements. It is shown that all these mechanisms allow additional strain to be achieved, enabling a yield-like behaviour to be generated. In some cases, the response is ductile and in others pseudo-ductile. Mechanisms can also be combined, and composites which give significant pseudo-ductile strain can be produced. Notch sensitivity is reduced, and there is the prospect of increasing design strains whilst also improving damage tolerance. The change in stiffness or visual indications of damage can be exploited to give warning that strain limits have been exceeded. Load carrying capacity is still maintained, allowing continued operation until repairs can be made. Areas for further work are identified which can contribute to creating structures made from high performance ductile or pseudo-ductile composites that fail gradually.
Text
1-s2.0-S1359835X24000265-main
- Version of Record
More information
Published date: June 2024
Identifiers
Local EPrints ID: 500783
URI: http://eprints.soton.ac.uk/id/eprint/500783
ISSN: 1359-835X
PURE UUID: f3a409a1-417a-4a32-9b20-d4ea52c5e6a3
Catalogue record
Date deposited: 13 May 2025 16:43
Last modified: 14 May 2025 02:15
Export record
Altmetrics
Contributors
Author:
M.R. Wisnom
Author:
S. Pimenta
Author:
M.S.P. Shaffer
Author:
P. Robinson
Author:
K.D. Potter
Author:
I. Hamerton
Author:
G. Czél
Author:
M. Fotouhi
Author:
D.B. Anthony
Author:
H. Yu
Author:
M.L. Longana
Author:
X. Wu
Author:
A. Bismarck
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics