Synergetic effects of thin plies and aligned carbon nanotube interlaminar reinforcement in composite laminates
Synergetic effects of thin plies and aligned carbon nanotube interlaminar reinforcement in composite laminates
Thin-ply carbon fiber laminates have exhibited superior mechanical properties and damage resistance when compared to standard thickness plies and enable greater flexibility in laminate design. However, the increased ply count in thin-ply laminates also increases the number of ply-ply interfaces, thereby increasing the number of relatively weak and delamination-prone interlaminar regions. In this study, we report the first experimental realization of aligned carbon nanotube interlaminar reinforcement of thin-ply unidirectional prepreg-based carbon fiber laminates, in a hierarchical architecture termed ‘nanostitching’. We synthesize a baseline effective standard thickness laminate using multiple thin plies of the same orientation to create a ply block, and we find an ~15% improvement in the interlaminar shear strength via short beam shear (SBS) testing for thin-ply nanostitched samples when compared to the baseline. This demonstrates a synergetic strength effect of nanostitching (~5% increase) and thin-ply lamination (~10% increase). Synchrotron-based computed tomography of post mortem SBS specimens suggests a different trajectory and mode of damage accumulation in nanostitched thin-ply laminates, notably the complete suppression of delaminations in the nanostitched region. Finite element predictions of damage progression highlight the complementary nature of positive thin-ply and nanostitching effects that are consistent with an ~15% improvement in Mode I and II interlaminar fracture toughness due to the aligned carbon nanotubes at the thin-ply interfaces.
Thin-ply laminate, Carbon nanotube, Mechanical properties, Finite element analysis
Kalfon-cohen, Estelle
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Kopp, Reed
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Furtado, Carolina
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Ni, Xinchen
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Arteiro, Albertino
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Borstnar, Gregor
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Mavrogordato, Mark N.
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Sinclair, Ian
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Spearing, S. Mark
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Camanho, Pedro P.
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Wardle, Brian L.
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Kalfon-cohen, Estelle
f23be8fb-88db-46e4-b258-c49fd977b87b
Kopp, Reed
b5a801fe-f1e2-406c-a070-73bac41796b3
Furtado, Carolina
c76c5f54-d539-42f7-8d2d-55fd32ea43e7
Ni, Xinchen
36d96458-0c72-4d23-85d9-822e4429a27c
Arteiro, Albertino
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Borstnar, Gregor
4b0498bf-6b1c-4e11-bd0a-7be326e8e837
Mavrogordato, Mark N.
f3e0879b-118a-463a-a130-1c890e9ab547
Sinclair, Ian
6005f6c1-f478-434e-a52d-d310c18ade0d
Spearing, S. Mark
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Camanho, Pedro P.
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Wardle, Brian L.
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Kalfon-cohen, Estelle, Kopp, Reed, Furtado, Carolina, Ni, Xinchen, Arteiro, Albertino, Borstnar, Gregor, Mavrogordato, Mark N., Sinclair, Ian, Spearing, S. Mark, Camanho, Pedro P. and Wardle, Brian L.
(2018)
Synergetic effects of thin plies and aligned carbon nanotube interlaminar reinforcement in composite laminates.
Composites Science and Technology.
(doi:10.1016/j.compscitech.2018.01.007).
Abstract
Thin-ply carbon fiber laminates have exhibited superior mechanical properties and damage resistance when compared to standard thickness plies and enable greater flexibility in laminate design. However, the increased ply count in thin-ply laminates also increases the number of ply-ply interfaces, thereby increasing the number of relatively weak and delamination-prone interlaminar regions. In this study, we report the first experimental realization of aligned carbon nanotube interlaminar reinforcement of thin-ply unidirectional prepreg-based carbon fiber laminates, in a hierarchical architecture termed ‘nanostitching’. We synthesize a baseline effective standard thickness laminate using multiple thin plies of the same orientation to create a ply block, and we find an ~15% improvement in the interlaminar shear strength via short beam shear (SBS) testing for thin-ply nanostitched samples when compared to the baseline. This demonstrates a synergetic strength effect of nanostitching (~5% increase) and thin-ply lamination (~10% increase). Synchrotron-based computed tomography of post mortem SBS specimens suggests a different trajectory and mode of damage accumulation in nanostitched thin-ply laminates, notably the complete suppression of delaminations in the nanostitched region. Finite element predictions of damage progression highlight the complementary nature of positive thin-ply and nanostitching effects that are consistent with an ~15% improvement in Mode I and II interlaminar fracture toughness due to the aligned carbon nanotubes at the thin-ply interfaces.
Text
Synergetic Effects of Aligned Carbon Nanotube Interlaminar Reinforcement and Thin Plies on Interlaminar _ec_cf_blw2_ec_Ian_M
- Accepted Manuscript
More information
Accepted/In Press date: 4 January 2018
e-pub ahead of print date: 9 January 2018
Keywords:
Thin-ply laminate, Carbon nanotube, Mechanical properties, Finite element analysis
Identifiers
Local EPrints ID: 417617
URI: http://eprints.soton.ac.uk/id/eprint/417617
ISSN: 0266-3538
PURE UUID: 48028bd2-b665-4383-9a03-2d4f54e16bd6
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Date deposited: 07 Feb 2018 17:30
Last modified: 16 Mar 2024 06:12
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Contributors
Author:
Estelle Kalfon-cohen
Author:
Reed Kopp
Author:
Carolina Furtado
Author:
Xinchen Ni
Author:
Albertino Arteiro
Author:
Gregor Borstnar
Author:
Pedro P. Camanho
Author:
Brian L. Wardle
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