Effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by Multi Jet Fusion
Mechanical anisotropy greatly influences the applications of materials printed by additive manufacturing techniques such as Multi Jet Fusion (MJF) and selective laser sintering. However, the mechanical anisotropy of MJF-printed fibre–reinforced polymer composites has not been well understood. In thi...
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sg-ntu-dr.10356-1611072022-08-20T20:11:45Z Effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by Multi Jet Fusion Liu, Xiaojiang Tey, Wei Shian Tan, Pengfei Leong, Kah Kit Chen, Jiayao Tian, Yujia Ong, Adrian Zhao, Lihua Zhou, Kun School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing HP-NTU Digital Manufacturing Corporate Lab Engineering::Mechanical engineering Multi Jet Fusion Polyamide 12 Mechanical anisotropy greatly influences the applications of materials printed by additive manufacturing techniques such as Multi Jet Fusion (MJF) and selective laser sintering. However, the mechanical anisotropy of MJF-printed fibre–reinforced polymer composites has not been well understood. In this work, the effect of the fibre length on the mechanical performance of MJF-printed glass fibre–reinforced polyamide 12 (GF/PA12) composites is systematically investigated. Both experimental and simulation results confirm that longer fibres are in favour of fibre alignment in the powder spreading direction. The composite parts with longer fibres exhibit higher porosity. When GFs with an average length of 226 μm are added, the ultimate tensile strength and tensile modulus of the composites measured in the powder bed spreading direction are remarkably improved by 51% and 326%, respectively, as compared with those of neat PA12 specimens. This work provides guidance for the printing of other high-strength fibre–reinforced polymer composites. Published version This work was supported by Industry Alignment Fund-Industry Collaboration Projects Grant [Grant number I1801E0028]. 2022-08-16T01:48:34Z 2022-08-16T01:48:34Z 2022 Journal Article Liu, X., Tey, W. S., Tan, P., Leong, K. K., Chen, J., Tian, Y., Ong, A., Zhao, L. & Zhou, K. (2022). Effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by Multi Jet Fusion. Virtual and Physical Prototyping, 17(3), 734-748. https://dx.doi.org/10.1080/17452759.2022.2059638 1745-2759 https://hdl.handle.net/10356/161107 10.1080/17452759.2022.2059638 2-s2.0-85128269594 3 17 734 748 en I1801E0028 Virtual and Physical Prototyping © 2022 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group. This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives License (http://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited, and is not altered, transformed, or built upon in any way. application/pdf |
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Engineering::Mechanical engineering Multi Jet Fusion Polyamide 12 Liu, Xiaojiang Tey, Wei Shian Tan, Pengfei Leong, Kah Kit Chen, Jiayao Tian, Yujia Ong, Adrian Zhao, Lihua Zhou, Kun Effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by Multi Jet Fusion |
| description |
Mechanical anisotropy greatly influences the applications of materials printed by additive manufacturing techniques such as Multi Jet Fusion (MJF) and selective laser sintering. However, the mechanical anisotropy of MJF-printed fibre–reinforced polymer composites has not been well understood. In this work, the effect of the fibre length on the mechanical performance of MJF-printed glass fibre–reinforced polyamide 12 (GF/PA12) composites is systematically investigated. Both experimental and simulation results confirm that longer fibres are in favour of fibre alignment in the powder spreading direction. The composite parts with longer fibres exhibit higher porosity. When GFs with an average length of 226 μm are added, the ultimate tensile strength and tensile modulus of the composites measured in the powder bed spreading direction are remarkably improved by 51% and 326%, respectively, as compared with those of neat PA12 specimens. This work provides guidance for the printing of other high-strength fibre–reinforced polymer composites. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Liu, Xiaojiang Tey, Wei Shian Tan, Pengfei Leong, Kah Kit Chen, Jiayao Tian, Yujia Ong, Adrian Zhao, Lihua Zhou, Kun |
| format |
Article |
| author |
Liu, Xiaojiang Tey, Wei Shian Tan, Pengfei Leong, Kah Kit Chen, Jiayao Tian, Yujia Ong, Adrian Zhao, Lihua Zhou, Kun |
| author_sort |
Liu, Xiaojiang |
| title |
Effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by Multi Jet Fusion |
| title_short |
Effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by Multi Jet Fusion |
| title_full |
Effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by Multi Jet Fusion |
| title_fullStr |
Effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by Multi Jet Fusion |
| title_full_unstemmed |
Effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by Multi Jet Fusion |
| title_sort |
effect of the fibre length on the mechanical anisotropy of glass fibre–reinforced polymer composites printed by multi jet fusion |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161107 |
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1743119469764411392 |