Mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3D printing
Alumina microlattices with solid struts and different topologies were fabricated by the stereolithography 3D printing method. Mechanical analysis shows that specific stiffness and strength were highest for Simple Cubic lattices, followed by Octet Truss, then Kelvin Cell lattices. The mechanical prop...
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sg-ntu-dr.10356-1464472021-02-20T20:11:34Z Mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3D printing Yap, Xiu Yun Seetoh, Ian Goh, Wei Liang Ye, Pengcheng Zhao, Yida Du, Zehui Lai, Chang Quan Gan, Chee Lip School of Materials Science and Engineering Temasek Laboratories @ NTU Engineering::Materials::Ceramic materials Mechanics of Materials Additive Manufacturing Alumina microlattices with solid struts and different topologies were fabricated by the stereolithography 3D printing method. Mechanical analysis shows that specific stiffness and strength were highest for Simple Cubic lattices, followed by Octet Truss, then Kelvin Cell lattices. The mechanical properties followed Ashby’s power law well at small relative densities ( ≤ 0.3), but deviated from it at higher relative densities due to the increased importance of joint deformation. Failure in the Simple Cubic lattices proceeded in a column-by-column manner from the boundaries inwards to the centre, while fracture in Octet Truss and Kelvin Cell lattices took place predominantly along the diagonal (111) and (110) planes respectively. The underlying mechanism controlling these mechanical responses has been thoroughly discussed using finite element simulation analysis. Because lattice strength was limited by the tensile strength of alumina, which was an order of magnitude lower than its compressive strength, the microlattices were weaker than Ashby’s predictions. Nevertheless, they were still able to exhibit better specific modulus and strength than many current engineering materials, as well as some degree of ductility in the form of pseudoplastic strains (0.1 % - 0.5 %). Agency for Science, Technology and Research (A*STAR) Accepted version The authors would like to acknowledge with thanks the financial support of the work by A*STAR AME IRG grant with project number of A1883c0009 and the project with PA number of POD0713727. 2021-02-17T06:39:21Z 2021-02-17T06:39:21Z 2021 Journal Article Yap, X. Y., Seetoh, I., Goh, W. L., Ye, P., Zhao, Y., Du, Z., ... Gan, C. L. (2021). Mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3D printing. International Journal of Mechanical Sciences, 196, 106285-. doi:10.1016/j.ijmecsci.2021.106285 0020-7403 https://hdl.handle.net/10356/146447 10.1016/j.ijmecsci.2021.106285 196 106285 en A1883c0009 International Journal of Mechanical Sciences © 2021 Elsevier Ltd. All rights reserved. This paper was published in International Journal of Mechanical Sciences and is made available with permission of Elsevier Ltd. application/pdf application/pdf |
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Engineering::Materials::Ceramic materials Mechanics of Materials Additive Manufacturing Yap, Xiu Yun Seetoh, Ian Goh, Wei Liang Ye, Pengcheng Zhao, Yida Du, Zehui Lai, Chang Quan Gan, Chee Lip Mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3D printing |
| description |
Alumina microlattices with solid struts and different topologies were fabricated by the stereolithography 3D printing method. Mechanical analysis shows that specific stiffness and strength were highest for Simple Cubic lattices, followed by Octet Truss, then Kelvin Cell lattices. The mechanical properties followed Ashby’s power law well at small relative densities ( ≤ 0.3), but deviated from it at higher relative densities due to the increased importance of joint deformation. Failure in the Simple Cubic lattices proceeded in a column-by-column manner from the boundaries inwards to the centre, while fracture in Octet Truss and Kelvin Cell lattices took place predominantly along the diagonal (111) and (110) planes respectively. The underlying mechanism controlling these mechanical responses has been thoroughly discussed using finite element simulation analysis. Because lattice strength was limited by the tensile strength of alumina, which was an order of magnitude lower than its compressive strength, the microlattices were weaker than Ashby’s predictions. Nevertheless, they were still able to exhibit better specific modulus and strength than many current engineering materials, as well as some degree of ductility in the form of pseudoplastic strains (0.1 % - 0.5 %). |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Yap, Xiu Yun Seetoh, Ian Goh, Wei Liang Ye, Pengcheng Zhao, Yida Du, Zehui Lai, Chang Quan Gan, Chee Lip |
| format |
Article |
| author |
Yap, Xiu Yun Seetoh, Ian Goh, Wei Liang Ye, Pengcheng Zhao, Yida Du, Zehui Lai, Chang Quan Gan, Chee Lip |
| author_sort |
Yap, Xiu Yun |
| title |
Mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3D printing |
| title_short |
Mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3D printing |
| title_full |
Mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3D printing |
| title_fullStr |
Mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3D printing |
| title_full_unstemmed |
Mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3D printing |
| title_sort |
mechanical properties and failure behaviour of architected alumina microlattices fabricated by stereolithography 3d printing |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146447 |
| _version_ |
1696984344154865664 |