Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants
Co–Cr–Mo alloy is used extensively for orthopedic implant applications. In this work, anisotropy in microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy by selective electron beam melting (SEBM) has been investigated. Experimental results show that the SEBM-built Co–Cr–...
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sg-ntu-dr.10356-1403352021-01-29T02:54:25Z Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants Xiang, Ding Ding Wang, P. Tan, Xi Peng Chandra, Shubham Wang, Chengcheng Nai, Sharon Mui Ling Tor, Shu Beng Liu, Wei Qiang Liu, Erjia School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Singapore Institute of Manufacturing Technology Engineering::Materials::Material testing and characterization Additive Manufacturing 3D Printing Co–Cr–Mo alloy is used extensively for orthopedic implant applications. In this work, anisotropy in microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy by selective electron beam melting (SEBM) has been investigated. Experimental results show that the SEBM-built Co–Cr–Mo parts along the build direction would be preferred over that of the non-build direction in strength and elongation. Strong anisotropy in tensile properties was found for the SEBM-built Co–Cr–Mo parts in two different directions. The microstructure of SEBM-built Co–Cr–Mo alloys consists of face-centered cubic columnar grains with the <001> preferred orientation and continuous thin carbide films at the grain boundaries. Columnar grains are supposed to be the basic microstructure feature that results in poor mechanical performance in the non-build direction. However, continuous thin carbide films at columnar grain boundaries severely exaggerate the anisotropic characteristics, which is the dominant reason for anisotropy. It is suggested that the SEBM-built Co–Cr–Mo along the build direction is expected to be suitable for load-bearing orthopedic implants. Accepted version 2020-05-28T03:55:19Z 2020-05-28T03:55:19Z 2019 Journal Article Xiang, D. D., Wang, P., Tan, X. P., Chandra, S., Wang, C., Nai, S. M. L., . . . Liu, E. (2019). Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants. Materials Science and Engineering A, 765, 138270-. doi:10.1016/j.msea.2019.138270 0921-5093 https://hdl.handle.net/10356/140335 10.1016/j.msea.2019.138270 2-s2.0-85070917501 765 138270 en Materials Science and Engineering A © 2019 Elsevier B.V. All rights reserved. This paper was published in Materials Science and Engineering A and is made available with permission of Elsevier B.V. application/pdf |
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Engineering::Materials::Material testing and characterization Additive Manufacturing 3D Printing Xiang, Ding Ding Wang, P. Tan, Xi Peng Chandra, Shubham Wang, Chengcheng Nai, Sharon Mui Ling Tor, Shu Beng Liu, Wei Qiang Liu, Erjia Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants |
| description |
Co–Cr–Mo alloy is used extensively for orthopedic implant applications. In this work, anisotropy in microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy by selective electron beam melting (SEBM) has been investigated. Experimental results show that the SEBM-built Co–Cr–Mo parts along the build direction would be preferred over that of the non-build direction in strength and elongation. Strong anisotropy in tensile properties was found for the SEBM-built Co–Cr–Mo parts in two different directions. The microstructure of SEBM-built Co–Cr–Mo alloys consists of face-centered cubic columnar grains with the <001> preferred orientation and continuous thin carbide films at the grain boundaries. Columnar grains are supposed to be the basic microstructure feature that results in poor mechanical performance in the non-build direction. However, continuous thin carbide films at columnar grain boundaries severely exaggerate the anisotropic characteristics, which is the dominant reason for anisotropy. It is suggested that the SEBM-built Co–Cr–Mo along the build direction is expected to be suitable for load-bearing orthopedic implants. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Xiang, Ding Ding Wang, P. Tan, Xi Peng Chandra, Shubham Wang, Chengcheng Nai, Sharon Mui Ling Tor, Shu Beng Liu, Wei Qiang Liu, Erjia |
| format |
Article |
| author |
Xiang, Ding Ding Wang, P. Tan, Xi Peng Chandra, Shubham Wang, Chengcheng Nai, Sharon Mui Ling Tor, Shu Beng Liu, Wei Qiang Liu, Erjia |
| author_sort |
Xiang, Ding Ding |
| title |
Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants |
| title_short |
Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants |
| title_full |
Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants |
| title_fullStr |
Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants |
| title_full_unstemmed |
Anisotropic microstructure and mechanical properties of additively manufactured Co–Cr–Mo alloy using selective electron beam melting for orthopedic implants |
| title_sort |
anisotropic microstructure and mechanical properties of additively manufactured co–cr–mo alloy using selective electron beam melting for orthopedic implants |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/140335 |
| _version_ |
1690658387277119488 |