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学术论文:增材制造β型钛合金的晶体取向编程技术

来源: 时间:2023-09-04 点击量:

Programming Crystallographic Orientation in Additive-Manufactured Beta-Type Titanium Alloy

Xuan Luo, Tao Song, Annett Gebert*, Kai Neufeld, Ivan Kaban, Hongwei Ma, Weisi Cai,Haizhou Lu, Dongdong Li, Ning Li, Yuanyuan Li*, Chao Yang*

https://onlinelibrary.wiley.com/doi/10.1002/advs.202302884

Abstract

Additively manufactured metallic materials typically exhibit preferential <001> or <110> crystallographic orientations along the build direction. Nowadays, the challenge is to program crystallographic orientation along arbitrary 3D direction in additive-manufactured materials. In this work, it is established a technique of multitrack coupled directional solidification (MTCDS) to program the <001> crystallographic orientation along an arbitrary 3D direction in biomedical beta-type Ti-Nb-Zr-Ta alloys via laser powder bed fusion (LPBF). MTCDS can be achieved via directional solidification of coupled multi-track melt pools with a specific temperature gradient direction. This results in continuous epitaxial growth of the β-Ti phase and consequently sets the <001> crystallographic orientation along an arbitrary 3D direction. This way, relatively low elastic modulus values of approximately 60 ± 1.2 GPa are customized along an arbitrary 3D direction. It is expected that MTCDS can be generalized to a wide range of applications for programming specific crystallographic orientations and, respectively, tailoring desired properties of different metallic materials.



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