Mixing Entropy Threshold for Entropy-Tailored Materials

Jie Wang, Yu-ling Tang, Shun Li, Zhouran Zhang, Y. Ye, Li'an Zhu, S. Bai
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引用次数: 4

Abstract

To determine the effect of mixing entropy on multicomponent alloys and to find the mixing entropy threshold for entropy-tailored materials, including high-entropy alloys and medium-entropy alloys, the microstructure and mechanical properties of 23 Ti-Zr-Nb-V alloys were investigated. The Laves phase content of Ti-Zr-Nb-V alloys was obtained using image recognition technology . According to the component threshold for Laves phases and HCP phase disappearance, V(Nb)-Zr(Ti) pseudo-binary phase diagrams, which can predict the phases of ternary Ti-Zr-V and Zr-Nb-V alloys, were established. By comparing the Laves phase content in Ti-Zr-Nb-V alloys obtained from experimental statistics, pseudo-binary phase diagrams and thermodynamic calculations, the Δ S mix threshold for entropy-tailored materials was 1.10~1.21R. The dependence of the yield strength and fracture strain of the Ti-Zr-Nb-V alloys further reveals that the mechanical properties of entropy-tailored alloys are essentially controlled.
熵裁剪材料的混合熵阈值
为了确定混合熵对多组分合金的影响,并找出高熵合金和中熵合金的混合熵阈值,研究了23种Ti-Zr-Nb-V合金的显微组织和力学性能。采用图像识别技术测定了Ti-Zr-Nb-V合金的Laves相含量。根据Laves相和HCP相消失的分量阈值,建立了可以预测Ti-Zr-V和Zr-Nb-V三元合金相的V(Nb)-Zr(Ti)伪二元相图。通过对比实验统计、拟二元相图和热力学计算得到的Ti-Zr-Nb-V合金的Laves相含量,可以得出:熵定制材料的Δ S混合阈值为1.10~1.21R。Ti-Zr-Nb-V合金屈服强度与断裂应变的相关性进一步表明,熵定制合金的力学性能基本上是可控的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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