Increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (WIP) process
Recently, short carbon fiber-reinforced plastic (SFRP) has been selected as a filament material to improve the strength of components fabricated by material extrusion (ME). However, despite the improved material properties, the weak interlayer bonding and voids present in the microstructure constitu...
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sg-ntu-dr.10356-1717392023-11-11T16:48:22Z Increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (WIP) process Park, Seong Jun Kim, Do Hyun Ju, Ho Gi Park, Seong Je Hong, Sukjoon Son, Yong Ahn, Il Hyuk School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Material Extrusion Carbon Fiber Composite Recently, short carbon fiber-reinforced plastic (SFRP) has been selected as a filament material to improve the strength of components fabricated by material extrusion (ME). However, despite the improved material properties, the weak interlayer bonding and voids present in the microstructure constitute defects that cause anisotropy in the SFRP composite and deteriorate its mechanical properties such as the tensile, compressive, and flexural strengths. In this study, warm isostatic pressing (WIP) was investigated as a means to increase the interlayer bonding force and reduce the voids. To increase the efficiency of WIP, vacuum packing was investigated as a means to promote interfacial strength and diffusion between the layers. The WIP process improved the tensile, compressive, and flexural properties, and the anisotropy decreased with increasing interlayer bonding force. In addition, the thermal properties improved with an increase in the degree of crystallinity, and the voids in the microstructure were effectively reduced. These results indicate that WIP is a promising post-processing treatment for ME-fabricated SFRP parts. Published version This study was supported by (1415185655, Development of DfAM based 3D Printing technology for combustor parts of private sector initiative small space launcher engine) and a Korea Institute of Industrial Technology (KITECH) internal project (1711175147, Development of 3D printing commercialization technology for military parts and demonstration support technology). 2023-11-06T08:02:20Z 2023-11-06T08:02:20Z 2023 Journal Article Park, S. J., Kim, D. H., Ju, H. G., Park, S. J., Hong, S., Son, Y. & Ahn, I. H. (2023). Increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (WIP) process. Journal of Materials Research and Technology, 25, 3610-3623. https://dx.doi.org/10.1016/j.jmrt.2023.06.130 2238-7854 https://hdl.handle.net/10356/171739 10.1016/j.jmrt.2023.06.130 2-s2.0-85164187987 25 3610 3623 en Journal of Materials Research and Technology © 2023 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |
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Engineering::Mechanical engineering Material Extrusion Carbon Fiber Composite Park, Seong Jun Kim, Do Hyun Ju, Ho Gi Park, Seong Je Hong, Sukjoon Son, Yong Ahn, Il Hyuk Increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (WIP) process |
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Recently, short carbon fiber-reinforced plastic (SFRP) has been selected as a filament material to improve the strength of components fabricated by material extrusion (ME). However, despite the improved material properties, the weak interlayer bonding and voids present in the microstructure constitute defects that cause anisotropy in the SFRP composite and deteriorate its mechanical properties such as the tensile, compressive, and flexural strengths. In this study, warm isostatic pressing (WIP) was investigated as a means to increase the interlayer bonding force and reduce the voids. To increase the efficiency of WIP, vacuum packing was investigated as a means to promote interfacial strength and diffusion between the layers. The WIP process improved the tensile, compressive, and flexural properties, and the anisotropy decreased with increasing interlayer bonding force. In addition, the thermal properties improved with an increase in the degree of crystallinity, and the voids in the microstructure were effectively reduced. These results indicate that WIP is a promising post-processing treatment for ME-fabricated SFRP parts. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Park, Seong Jun Kim, Do Hyun Ju, Ho Gi Park, Seong Je Hong, Sukjoon Son, Yong Ahn, Il Hyuk |
| format |
Article |
| author |
Park, Seong Jun Kim, Do Hyun Ju, Ho Gi Park, Seong Je Hong, Sukjoon Son, Yong Ahn, Il Hyuk |
| author_sort |
Park, Seong Jun |
| title |
Increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (WIP) process |
| title_short |
Increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (WIP) process |
| title_full |
Increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (WIP) process |
| title_fullStr |
Increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (WIP) process |
| title_full_unstemmed |
Increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (WIP) process |
| title_sort |
increased interlayer bonding strength of short carbon fiber composite fabricated by material extrusion via warm isostatic pressing (wip) process |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171739 |
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1783955536135323648 |