In-plane and through-thickness properties, failure modes, damage and delamination in 3D woven carbon fibre composites subjected to impact loading

Gerlach, R; Siviour, C; Wiegand, J; Petrinic, N

Journal article

In-plane and through-thickness properties, failure modes, damage and delamination in 3D woven carbon fibre composites subjected to impact loading

Abstract:: Two noncrimp 3D woven carbon fibre composites (through thickness angle interlock) of binder volume fractions 3% and 6% were characterised for their response to applied deformation. Experiments were performed at quasi static, medium and high strain rates under a large variety of load cases (tension in warp/weft direction, interlaminar/intralaminar shear, through thickness tension/compression, 3-point bending and plate bending). During the study, novel experimental methods were developed in ord...
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APA Style

Gerlach, R., Siviour, C., Wiegand, J., & Petrinic, N. (2012). In-plane and through-thickness properties, failure modes, damage and delamination in 3D woven carbon fibre composites subjected to impact loading. COMPOSITES SCIENCE AND TECHNOLOGY, 72(3), 397–411.

MLA Style

Gerlach, R., et al. “In-Plane and through-Thickness Properties, Failure Modes, Damage and Delamination in 3D Woven Carbon Fibre Composites Subjected to Impact Loading.” COMPOSITES SCIENCE AND TECHNOLOGY, vol. 72, no. 3, 2012, pp. 397–411.

Chicago Style

Gerlach, R, C Siviour, J Wiegand, and N Petrinic. 2012. “In-Plane and through-Thickness Properties, Failure Modes, Damage and Delamination in 3D Woven Carbon Fibre Composites Subjected to Impact Loading.” COMPOSITES SCIENCE AND TECHNOLOGY 72 (3): 397–411.
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Publisher copy:: 10.1016/j.compscitech.2011.11.032

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+ Gerlach, R More by this author

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+ Siviour, C More by this author

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+ Wiegand, J More by this author

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+ Petrinic, N More by this author

Institution:

University of Oxford

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MPLS

Department:

Engineering Science

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Bibliographic Details

Journal:: COMPOSITES SCIENCE AND TECHNOLOGY
Volume:: 72
Issue:: 3
Pages:: 397-411
Publication date:: 2012-02-07
DOI:: 10.1016/j.compscitech.2011.11.032
ISSN:: 0266-3538

Item Description

Language:: English
Keywords:: Textile composites

Multiscale modelling

Fracture

Matrix cracking

Strain rate
Pubs id:: pubs:307643
UUID:: uuid:36eb5231-28b1-4276-8681-eb0d7e2af53c
Local pid:: pubs:307643
Source identifiers:: 307643
Deposit date:: 2012-12-19

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Journal article

In-plane and through-thickness properties, failure modes, damage and delamination in 3D woven carbon fibre composites subjected to impact loading

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