1. Novel metastable engineering in single-phase high-entropy alloy.
- Author
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Wang, Ruixin, Tang, Yu, Li, Shun, Zhang, Hong, Ye, Yicong, Zhu, Li'an, Ai, Yuanlin, and Bai, Shuxin
- Subjects
- *
METASTABLE ions , *MECHANICAL behavior of materials , *REFRACTORY materials , *HEAT resistant materials , *FINITE element method - Abstract
Abstract To improve the mechanical properties of high-entropy alloys (HEAs) and expand the application range of metastable engineering, the NbZrTiTa alloy was researched. The results show that this alloy exhibits uniform element distribution and a metastable single-phase body-centered cubic (BCC) structure. During loading, element diffusion occurs, and then the TiZr-rich and TaNb-rich regions form. The increased Ti and Zr content reduces the stability of the BCC structure and leads to in-situ structure transformation in the TiZr-rich region. Element diffusion and structure transformation improve ductility by absorbing the loading work and releasing internal stresses. Furthermore, interface strengthening caused by the formation of the dual-phase region and the coherent nano-precipitation due to the compositional fluctuations together enhance the strength. The co-contribution of various metastable-induced strengthening and toughening mechanisms distinguishes the strength and ductility of the single-phase NbZrTiTa HEA from those of all the reported refractory systems. More importantly, the successful utilization of the novel metastable engineering induced by element diffusion in single-phase HEA provides a useful guide to design HEAs and other structural materials. Graphical abstract Unlabelled Image Highlights • A novel metastable engineering is utilized in single-phase high-entropy alloy to overcome the strength-ductility trade-off. • Transformation-induced plasticity effect is stimulated by element diffusion and the in-situ formation of dual-phase region. • Structure transformation and coherent nano-precipitation distinguish the mechanical property of NbZrTiTa high-entropy alloy. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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