High performance graphene-based pseudo-ductile composites
High performance graphene-based pseudo-ductile composites
High-performance fibre reinforced polymer (FRP) composites offer excellent specific strength and stiffness when compared to high-density metallic materials. However, their inherent brittleness leads to sudden and catastrophic failure without sufficient pre-warning, rendering them unsuitable for many applications. To address this limitation, we present a novel approach using graphene-based glass-carbon FRP hybrid composites that exhibit excellent pseudo-ductile properties. Our technique involves coating glass and carbon fibre balanced plain woven fabrics with graphene-based materials using a facile and scalable pad-dry-cure coating technique, followed by reinforcement with an epoxy matrix via vacuum-assisted resin infusion (VARI). Our tensile and flexural tests demonstrate the exceptional pseudo-ductile behaviour of these hybrid composites, with no visible changes in damage initiation after the initial failure of carbon fibre. By enabling the manufacture of high-performance pseudo-ductile composites at scale using a low-cost manufacturing method, our graph
Islam, Mohammad Hamidul
10073bee-64ee-4cb6-89cc-ec0493642371
Afroj, Shaila
9b4a7a26-01db-40c7-a933-f07a7ed58a73
Karim, Nazmul
31555bd6-2dc7-4359-b717-3b2fe223df36
25 May 2023
Islam, Mohammad Hamidul
10073bee-64ee-4cb6-89cc-ec0493642371
Afroj, Shaila
9b4a7a26-01db-40c7-a933-f07a7ed58a73
Karim, Nazmul
31555bd6-2dc7-4359-b717-3b2fe223df36
[Unknown type: UNSPECIFIED]
Abstract
High-performance fibre reinforced polymer (FRP) composites offer excellent specific strength and stiffness when compared to high-density metallic materials. However, their inherent brittleness leads to sudden and catastrophic failure without sufficient pre-warning, rendering them unsuitable for many applications. To address this limitation, we present a novel approach using graphene-based glass-carbon FRP hybrid composites that exhibit excellent pseudo-ductile properties. Our technique involves coating glass and carbon fibre balanced plain woven fabrics with graphene-based materials using a facile and scalable pad-dry-cure coating technique, followed by reinforcement with an epoxy matrix via vacuum-assisted resin infusion (VARI). Our tensile and flexural tests demonstrate the exceptional pseudo-ductile behaviour of these hybrid composites, with no visible changes in damage initiation after the initial failure of carbon fibre. By enabling the manufacture of high-performance pseudo-ductile composites at scale using a low-cost manufacturing method, our graph
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high-performance-graphene-based-pseudo-ductile-composites
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Published date: 25 May 2023
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Local EPrints ID: 496230
URI: http://eprints.soton.ac.uk/id/eprint/496230
PURE UUID: b39c0183-68df-4122-98c1-80f42c982cbc
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Date deposited: 09 Dec 2024 17:43
Last modified: 10 Dec 2024 03:11
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Author:
Mohammad Hamidul Islam
Author:
Shaila Afroj
Author:
Nazmul Karim
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