The effect of zirconium on the Ti-(42-46 at.%)Al system

材料科学 微观结构 索里达 金属间化合物 三元运算 相(物质) 灰烬 热力学 铝化钛 相图 晶格常数 冶金 固溶体 衍射 物理 有机化学 化学 光学 程序设计语言 合金 计算机科学
作者
Michael Musi,Stefan Kardos,Lukas Hatzenbichler,David Holec,Andreas Stark,Melissa Allen,Volker Güther,Helmut Clemens,Petra Spoerk-Erdely
出处
期刊:Acta Materialia [Elsevier BV]
卷期号:241: 118414-118414 被引量:13
标识
DOI:10.1016/j.actamat.2022.118414
摘要

In recent years, Zr has emerged as a promising alloying element for intermetallic γ-TiAl based alloys to improve their mechanical properties. The present work focuses on the influence of this element on the microstructure and the thermodynamic phase equilibria in the ternary Ti-(42-46)Al-(2-4)Zr (at.%) system. Alloying with Zr was found to increase the amount of the γ phase in the microstructure of cast material densified by hot-isostatic pressing. Simultaneously, the material's hardness increased due to solid solution strengthening as well as the refinement of lamellae in the α2/γ colonies. With respect to the phase transformation behaviour, a significant decrease of the solidus temperature was observed in the high Zr alloyed material variants. In combination with the stabilization of the γ phase, this essentially results in a narrowing of the single α phase field region in the Ti-Al-Zr phase diagram derived in this work. In situ high-energy X-ray diffraction was performed on Ti-46Al-2Zr and Ti-46Al-4Zr (at.%) specimens to investigate the phase transitions above and below the solidus temperature by utilizing two different experimental setups. These experiments showed that upon heating, small amounts of β phase are formed in both alloys prior to the transition into the peritectic α+β+L phase field region. Furthermore, an additional heat treatment study was conducted to determine the influence of Zr and temperature on the resulting microstructure. The combination of X-ray diffraction techniques with ab-initio calculations revealed a significant asymmetric influence of Zr on the lattice parameter of the γ phase, resulting in a decreasing c/a ratio.

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