电子束选区熔融技术(SEBM)成型医用Co-Cr-Mo合金各向异性与力学性能研究
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Updated Time:2020-12-07 13:59:09
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Oral Presentation
Abstract
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.
Keywords
additive manufacturing,selective electron beam melting,Co-Cr-Mo,anisotropy,implant
Submission Author
项顶顶
清华大学
谭喜鹏
南洋理工大学
刘伟强
清华大学
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