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Evaluating the localised through-thickness load transfer and damage initiation in a composite joint using digital image correlation

Evaluating the localised through-thickness load transfer and damage initiation in a composite joint using digital image correlation
Evaluating the localised through-thickness load transfer and damage initiation in a composite joint using digital image correlation
Experimental analysis of the stresses and strains in a glass fibre polymer composite double butt strap joint using digital image correlation (DIC) is described in the paper. Initially the strain fields through the thickness of the joint are derived from DIC measurements, capturing the effect of the initiation and development of cracks in the joint up to failure. It is demonstrated that the relatively small strains developed in the through-thickness direction are critical in the development of damage in the joint at the geometric discontinuity between the adherends. An experimental methodology is established to perform DIC at the mesoscopic scale, enabling accurate, high spatial resolution analysis of the small through-thickness strains around the discontinuity. The DIC enables the strains to be evaluated, their development monitored and hence establish their contribution to the failure process. To determine the full-field stresses in the joint experimentally derived materials properties are used. From component stress maps principal stresses maps are derived, which clearly show where the damage is initiating and its subsequent growth in the composite adherends until final failure of the joint.
adhesion, stress concentration, mechanical testing, non-destructive testing, joint/jointing
1359-835X
224-234
Crammond, G.
4c7d51b8-5431-479c-b10d-84eddaab2a1f
Boyd, S.W.
bcbdefe0-5acf-4d6a-8a16-f4abf7c78b10
Dulieu-Barton, J.M.
9e35bebb-2185-4d16-a1bc-bb8f20e06632
Crammond, G.
4c7d51b8-5431-479c-b10d-84eddaab2a1f
Boyd, S.W.
bcbdefe0-5acf-4d6a-8a16-f4abf7c78b10
Dulieu-Barton, J.M.
9e35bebb-2185-4d16-a1bc-bb8f20e06632

Crammond, G., Boyd, S.W. and Dulieu-Barton, J.M. (2014) Evaluating the localised through-thickness load transfer and damage initiation in a composite joint using digital image correlation. Composites Part A: Applied Science and Manufacturing, 61, 224-234. (doi:10.1016/j.compositesa.2014.03.002).

Record type: Article

Abstract

Experimental analysis of the stresses and strains in a glass fibre polymer composite double butt strap joint using digital image correlation (DIC) is described in the paper. Initially the strain fields through the thickness of the joint are derived from DIC measurements, capturing the effect of the initiation and development of cracks in the joint up to failure. It is demonstrated that the relatively small strains developed in the through-thickness direction are critical in the development of damage in the joint at the geometric discontinuity between the adherends. An experimental methodology is established to perform DIC at the mesoscopic scale, enabling accurate, high spatial resolution analysis of the small through-thickness strains around the discontinuity. The DIC enables the strains to be evaluated, their development monitored and hence establish their contribution to the failure process. To determine the full-field stresses in the joint experimentally derived materials properties are used. From component stress maps principal stresses maps are derived, which clearly show where the damage is initiating and its subsequent growth in the composite adherends until final failure of the joint.

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More information

Accepted/In Press date: 2 March 2014
e-pub ahead of print date: 12 March 2014
Published date: June 2014
Keywords: adhesion, stress concentration, mechanical testing, non-destructive testing, joint/jointing
Organisations: Engineering Science Unit

Identifiers

Local EPrints ID: 363672
URI: http://eprints.soton.ac.uk/id/eprint/363672
DOI: doi:10.1016/j.compositesa.2014.03.002
ISSN: 1359-835X
PURE UUID: 2dbb7c38-48e8-4fb2-9c56-12381ee0cac7

Catalogue record

Date deposited: 31 Mar 2014 08:40
Last modified: 14 Mar 2024 16:27

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Contributors

Author: G. Crammond
Author: S.W. Boyd
Author: J.M. Dulieu-Barton

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