Characterization and ballistic performance of thin pre-damaged resin-starved aramid-fiber composite panels
Characterization and ballistic performance of thin pre-damaged resin-starved aramid-fiber composite panels
Military personnel use protective armor systems that are frequently exposed to low-level damage, such as non-ballistic impact, wear-and-tear from everyday use, and damage during storage of equipment. The extent to which such low-level pre-damage could affect the performance of an armor system is unknown. In this work, low-level pre-damage has been introduced into a Kevlar/phenolic resin-starved composite panel using tensile loading. The tensile stress–strain behavior of this eight-layer material has been investigated and has been found to have two distinct regions; these have been understood in terms of the microstructure and damage within the composite panels investigated using micro-computed tomography and digital image correlation. Ballistic testing carried out on pristine (control) and pre-damaged panels did not indicate any difference in the V50 ballistic performance. However, an indication of a difference in response to ballistic impact was observed; the area of maximal local out-of-plane deformation for the pre-damaged panels was found to be twice that of the control panels, and the global out-of-plane deformation across the panel was also larger.
Ballistic testing, controlled damage, energy dissipation, micro-CT, para-aramid woven fabric
Edwards, Cerise A
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Ogin, Stephen L
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Jesson, David A
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Oldfield, Matthew
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Livesey, Rebecca L
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James, Bryn J
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Boardman, Richard P
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Edwards, Cerise A
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Ogin, Stephen L
6729e28c-b11f-487c-8c76-775124ccd701
Jesson, David A
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Oldfield, Matthew
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Livesey, Rebecca L
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James, Bryn J
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Boardman, Richard P
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Edwards, Cerise A, Ogin, Stephen L, Jesson, David A, Oldfield, Matthew, Livesey, Rebecca L, James, Bryn J and Boardman, Richard P
(2021)
Characterization and ballistic performance of thin pre-damaged resin-starved aramid-fiber composite panels.
Textile Research Journal.
(doi:10.1177/00405175211013424).
Abstract
Military personnel use protective armor systems that are frequently exposed to low-level damage, such as non-ballistic impact, wear-and-tear from everyday use, and damage during storage of equipment. The extent to which such low-level pre-damage could affect the performance of an armor system is unknown. In this work, low-level pre-damage has been introduced into a Kevlar/phenolic resin-starved composite panel using tensile loading. The tensile stress–strain behavior of this eight-layer material has been investigated and has been found to have two distinct regions; these have been understood in terms of the microstructure and damage within the composite panels investigated using micro-computed tomography and digital image correlation. Ballistic testing carried out on pristine (control) and pre-damaged panels did not indicate any difference in the V50 ballistic performance. However, an indication of a difference in response to ballistic impact was observed; the area of maximal local out-of-plane deformation for the pre-damaged panels was found to be twice that of the control panels, and the global out-of-plane deformation across the panel was also larger.
Text
00405175211013424
- Version of Record
More information
Accepted/In Press date: 1 May 2021
e-pub ahead of print date: 27 May 2021
Keywords:
Ballistic testing, controlled damage, energy dissipation, micro-CT, para-aramid woven fabric
Identifiers
Local EPrints ID: 453778
URI: http://eprints.soton.ac.uk/id/eprint/453778
ISSN: 0040-5175
PURE UUID: 502b9aa9-4ca2-4277-a2d2-6e376e850670
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Date deposited: 24 Jan 2022 17:46
Last modified: 17 Mar 2024 02:58
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Contributors
Author:
Cerise A Edwards
Author:
Stephen L Ogin
Author:
David A Jesson
Author:
Matthew Oldfield
Author:
Rebecca L Livesey
Author:
Bryn J James
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