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Comprehensive parametric analyses on the mechanical performance of 3D printed continuous carbon fibre reinforced plastic

Comprehensive parametric analyses on the mechanical performance of 3D printed continuous carbon fibre reinforced plastic
Comprehensive parametric analyses on the mechanical performance of 3D printed continuous carbon fibre reinforced plastic
This study presents a novel in-house modelling method called “Fibre Path Generator” and comprehensive parametric analyses on the mechanical performance of carbon fibre reinforced plastic (CFRP) with the fibre path along the principal stress direction, using both finite element (FE) simulations and experiments. The reliability of the developed CFRP model is validated through the fabrication of open-hole tensile test specimens using a co-extrusion composite 3D-printer, which demonstrated a highly compatible maximum tensile load with an error less than 3%. A comparative analysis is conducted to assess the mechanical performance of the CFRP specimen with principal stress fibre placement, which result shows that the maximum tensile load achieved is 172.84% higher than a CFRP model with uniaxial fibre placement. Furthermore, comprehensive parametric studies are carried out, varying the carbon fibre location and width-to-depth (w/D) ratio of the open-hole specimen, in order to evaluate the mechanical performance under the tensile loading. This study results provide useful insights to engineers when enhancing the mechanical performance of CFRP composite structures with effective continuous fibre placement.
continuous carbon fibre reinforced plastic, principal stress, co-extrusion composite 3D-printer, mechanical performance
0263-8223
Park, Georak
f39cf771-823d-4f3c-9614-eeecfca27a54
Cho, Nak-Kyun
5d001a02-7f87-4236-84d7-a3208e9e82ee
Lee, Yeajin
68771a14-4343-4e99-9837-832b10b6b5e7
Kim, Chung-Soo
33a6958a-c890-4684-8f1a-dcfa37392221
Park, Georak
f39cf771-823d-4f3c-9614-eeecfca27a54
Cho, Nak-Kyun
5d001a02-7f87-4236-84d7-a3208e9e82ee
Lee, Yeajin
68771a14-4343-4e99-9837-832b10b6b5e7
Kim, Chung-Soo
33a6958a-c890-4684-8f1a-dcfa37392221

Park, Georak, Cho, Nak-Kyun, Lee, Yeajin and Kim, Chung-Soo (2023) Comprehensive parametric analyses on the mechanical performance of 3D printed continuous carbon fibre reinforced plastic. Composite Structures, 329, [117804]. (doi:10.1016/j.compstruct.2023.117804).

Record type: Article

Abstract

This study presents a novel in-house modelling method called “Fibre Path Generator” and comprehensive parametric analyses on the mechanical performance of carbon fibre reinforced plastic (CFRP) with the fibre path along the principal stress direction, using both finite element (FE) simulations and experiments. The reliability of the developed CFRP model is validated through the fabrication of open-hole tensile test specimens using a co-extrusion composite 3D-printer, which demonstrated a highly compatible maximum tensile load with an error less than 3%. A comparative analysis is conducted to assess the mechanical performance of the CFRP specimen with principal stress fibre placement, which result shows that the maximum tensile load achieved is 172.84% higher than a CFRP model with uniaxial fibre placement. Furthermore, comprehensive parametric studies are carried out, varying the carbon fibre location and width-to-depth (w/D) ratio of the open-hole specimen, in order to evaluate the mechanical performance under the tensile loading. This study results provide useful insights to engineers when enhancing the mechanical performance of CFRP composite structures with effective continuous fibre placement.

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More information

Accepted/In Press date: 12 December 2023
e-pub ahead of print date: 15 December 2023
Published date: 19 December 2023
Keywords: continuous carbon fibre reinforced plastic, principal stress, co-extrusion composite 3D-printer, mechanical performance

Identifiers

Local EPrints ID: 488316
URI: http://eprints.soton.ac.uk/id/eprint/488316
DOI: doi:10.1016/j.compstruct.2023.117804
ISSN: 0263-8223
PURE UUID: 426d2531-b45d-49b4-b6b5-dee2a3ace593

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Date deposited: 19 Mar 2024 18:41
Last modified: 19 Mar 2024 18:41

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Contributors

Author: Georak Park
Author: Nak-Kyun Cho
Author: Yeajin Lee
Author: Chung-Soo Kim

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