Electron beam powder bed fusion of TiAl alloy with controllable microstructure and strength

doi:10.1016/j.jmst.2025.03.004

Abstract

Abstract: TiAl alloys fabricated by electron beam powder bed fusion (EB-PBF) usually exhibit special microstructures with alternating fine-grained (FG) regions and coarse-grained (CG) bands. In previous studies, the CG microstructures were equiaxed γ phases, and the FG microstructures presented three types: near gamma, duplex, and nearly lamellar. However, the rule for controlling FG microstructures has not been found. Hence, a method needs to be built to find the rule for controlling FG microstructures. Here, we established a normalized process diagram by combining Al-equivalent and dimensionless process parameters. Based on the normalized process diagram, we successfully control the FG microstructures and customize three FG microstructures of the Ti-48Al-2Cr-2Nb alloy. Meanwhile, the average tensile yield strength reaches 756 MPa when the FG microstructure is near gamma. The yield strength is higher than the previous data for the Ti-48Al-2Cr-2Nb alloy. This is attributed to the strong interface-strengthening effect between FG near-γ microstructures and CG γ bands. These findings can help shorten the research time of the other TiAl alloys fabricated by EB-PBF, improving the mechanical properties of the other EB-PBF-built TiAl alloys in the future.

Key words: TiAl alloy, Additive manufacturing, Electron beam powder bed fusion, Normalized process diagram, Microstructure, Tensile strength

Yulin Sun, Yang Chen, Zhixiang Qi, Gong Zheng, Daixiu Wei, Henggao Xiang, Nan Liu, Xianghui Wang, Xi Pan, Jian Wang, Guang Chen. Electron beam powder bed fusion of TiAl alloy with controllable microstructure and strength[J]. J. Mater. Sci. Technol., 2025, 234: 47-59.

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