Comparison of the accumulation of fibre breaks occurring in a unidirectional carbon/epoxy composite identified in a multi-scale micro-mechanical model with that of experimental observations using high resolution computed tomography
Comparison of the accumulation of fibre breaks occurring in a unidirectional carbon/epoxy composite identified in a multi-scale micro-mechanical model with that of experimental observations using high resolution computed tomography
A model to predict fibre break accumulation that takes into account all physical phenomena at the origin of the fibre break (i.e. the random nature, stress transfer due to breaks, fibre debonding and viscosity of the matrix) shows clearly that the failure of a unidirectional composite structure results in the formation of random fibre breaks which at higher loads coalesce into clusters of broken fibres. The object of the study is to experimentally confirm this scenario. Many techniques exist to detect the failure of carbon fibre composites, however none of them offer a resolution that allows this goal to be achieved in a non-destructive manner and in three dimensions. High resolution computed tomography has been used to confirm the scenario modelled. A sample was tested and observed in-situ at the European Synchrotron Research Facilities, ESRF, Grenoble. All fibre breaks arising in the vicinity of the final rupture of a unidirectional composite have been detected and the formation of clusters can be observed.
high resolution computed tomography, fibre break, multi-scale modelling, unidirectional composite, micromechanics
Scott, A.E.
37356844-61d7-450e-b33e-032c2c41903b
Sinclair, I.
6005f6c1-f478-434e-a52d-d310c18ade0d
Spearing, S.M.
9e56a7b3-e0e8-47b1-a6b4-db676ed3c17a
Mavrogordato, M.N.
f3e0879b-118a-463a-a130-1c890e9ab547
Bunsell, A.R.
2de8ab27-1480-4b71-bb4f-c808835eb76b
Thionnet, A.
b67c6220-4097-4653-ac67-94a3fd1ad3bf
18 October 2010
Scott, A.E.
37356844-61d7-450e-b33e-032c2c41903b
Sinclair, I.
6005f6c1-f478-434e-a52d-d310c18ade0d
Spearing, S.M.
9e56a7b3-e0e8-47b1-a6b4-db676ed3c17a
Mavrogordato, M.N.
f3e0879b-118a-463a-a130-1c890e9ab547
Bunsell, A.R.
2de8ab27-1480-4b71-bb4f-c808835eb76b
Thionnet, A.
b67c6220-4097-4653-ac67-94a3fd1ad3bf
Scott, A.E., Sinclair, I., Spearing, S.M., Mavrogordato, M.N., Bunsell, A.R. and Thionnet, A.
(2010)
Comparison of the accumulation of fibre breaks occurring in a unidirectional carbon/epoxy composite identified in a multi-scale micro-mechanical model with that of experimental observations using high resolution computed tomography.
Materiaux 2010, Nantes, France.
17 - 21 Oct 2010.
9 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
A model to predict fibre break accumulation that takes into account all physical phenomena at the origin of the fibre break (i.e. the random nature, stress transfer due to breaks, fibre debonding and viscosity of the matrix) shows clearly that the failure of a unidirectional composite structure results in the formation of random fibre breaks which at higher loads coalesce into clusters of broken fibres. The object of the study is to experimentally confirm this scenario. Many techniques exist to detect the failure of carbon fibre composites, however none of them offer a resolution that allows this goal to be achieved in a non-destructive manner and in three dimensions. High resolution computed tomography has been used to confirm the scenario modelled. A sample was tested and observed in-situ at the European Synchrotron Research Facilities, ESRF, Grenoble. All fibre breaks arising in the vicinity of the final rupture of a unidirectional composite have been detected and the formation of clusters can be observed.
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More information
Published date: 18 October 2010
Venue - Dates:
Materiaux 2010, Nantes, France, 2010-10-17 - 2010-10-21
Keywords:
high resolution computed tomography, fibre break, multi-scale modelling, unidirectional composite, micromechanics
Identifiers
Local EPrints ID: 194343
URI: http://eprints.soton.ac.uk/id/eprint/194343
PURE UUID: 76ca6d6a-07b2-4a6a-ad70-af8087478aec
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Date deposited: 29 Jul 2011 09:57
Last modified: 11 Dec 2021 03:57
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Contributors
Author:
A.E. Scott
Author:
A.R. Bunsell
Author:
A. Thionnet
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