Data-Driven Insights into the Structural Essence of Plasticity in High- Entropy Alloys

CH Tung and SY Chang and ZT Bai and Y Fan and S Yip and C Do and WR Chen, JOM, 76, 5755-5767 (2024).

DOI: 10.1007/s11837-024-06753-6

The heterogeneous mechanical response of a crystalline alloy with multiple principal elements was investigated using molecular dynamics simulations. The local configuration of the alloy in its quiescent state was characterized by the variables derived from the gyration tensor and the atomic electronegativity. A multivariate analysis identified the geometric and chemical factors that influenced the atomic packing variations. Upon straining, the non-affine displacement exhibited spatial heterogeneity. A statistical correlation was established between the local yield events and the specific features of the local configuration. Our findings, validated by the performance metrics analysis, provided a structural criterion for the instability mechanisms in high-entropy alloys (HEAs) and enhanced the understanding of their plasticity.

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