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Compositional Changes and Microstructure Evolution of Ti6Al4V-Inconel718 Functionally Graded Materials by Laser Additive Manufacturing
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1.Nanjing Tech University;2.Nanjing Zhongke Raycgam Laser Technology CO.LTD

Clc Number:

TG146.2

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    Abstract:

    Ti6Al4V/Inconel718 functionally graded materials were prepared by laser additive manufacturing technology. The composition, phase composition, microstructure and microhardness of the gradient materials were studied. The research shows that a series of phase transitions occur along the composition gradient direction: α+β→α+β+Ti2Ni→β+TiNi→γ, and the transition layer is mainly composed of TiNi and Ti2Ni and binary phases such as Ti-Cr and Ti-Fe. The composition of the mixture; the microstructure from the bottom to the top of the material has undergone a transformation from Widmanst?tten α-laths to fine dendritic structure; the microhardness test of the deposited structure shows that the transition layer with the higher Ti2Ni phase area fraction is the hardest. This study found a maximum of 823 HV.

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[Huang Jinxin, Sun Zhonggang, Chang Hui, Chang Lili, Xing Fei. Compositional Changes and Microstructure Evolution of Ti6Al4V-Inconel718 Functionally Graded Materials by Laser Additive Manufacturing[J]. Rare Metal Materials and Engineering,2020,49(8):2813~2819.]
DOI:10.12442/j. issn.1002-185X.20190610

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History
  • Received:July 19,2019
  • Revised:September 16,2019
  • Adopted:October 11,2019
  • Online: September 27,2020
  • Published: