Phase Constitution and Microstructure of the NbTiVZr Refractory High-Entropy Alloy Solidified Upon Different Processing

A. F. Andreoli, Rafael G Mendes, V. Witusiewicz, O. Shuleshova, M. V. van Huis, K. Nielsch, I. Kaban
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引用次数: 11

Abstract

Time- and temperature-resolved phase formation in the equiatomic NbTiVZr refractory high-entropy alloy has been studied in situ using high-energy synchrotron X-ray diffraction and high-speed video imaging during non-equilibrium solidification. Phase formation upon solidification is shown to be dependent on the processing conditions. When the melt is undercooled over 80 K it crystallizes as a bcc single-phase solid solution despite solute partitioning between dendrites and interdendritic regions. When the sample is for some time kept in the semisolid state, two additional bcc phases form in the interdendritic regions. The crystal growth velocity, as estimated from the high-speed videos, shows pronounced sluggish kinetics compared to the literature data of other medium- and high-entropy alloys.
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不同凝固工艺下NbTiVZr难熔高熵合金的相组成及显微组织
利用高能同步x射线衍射和高速视频成像技术,原位研究了等原子NbTiVZr耐火高熵合金在非平衡凝固过程中时间和温度分辨相的形成。凝固时相的形成取决于加工条件。当熔体过冷超过80k时,尽管在枝晶和枝晶间区域有溶质分配,但熔体仍结晶为bcc单相固溶体。当样品在半固态中保持一段时间后,在枝晶间区域形成两个额外的bcc相。从高速视频中估计的晶体生长速度,与其他中、高熵合金的文献数据相比,显示出明显的缓慢动力学。
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