A statistics-based study and machine-learning of stacking fault energies in HEAs

X Liu and YX Zhu and CW Wang and KN Han and L Zhao and S Liang and MS Huang and ZH Li, JOURNAL OF ALLOYS AND COMPOUNDS, 966, 171547 (2023).

DOI: 10.1016/j.jallcom.2023.171547

Due to the chemical disorder in the multi-principal component alloy, the stacking fault energy (SFE) of high entropy alloy is greatly affected by the complex local elemental environment, thus invalidating the traditional SFE calculation approach. Herein, a novel strategy for localized stacking fault energy (LSFE) calculation is proposed, which can not only reasonably incorporate the local chemical fluctuation effect in HEAs but also allows to realize high-throughput SFE calculations. Based on statistical method, the quantitative probability distributions of SFEs in FCC and BCC HEAs are achieved, which are necessary for further study of dislocation motion and up-scale modeling of HEAs. Finally, the intrinsic correlation between the LSFE and the local composition inhomogeneity in HEAs is unprecedentedly established with the machine learning (ML) methods. By classifying the features, the main factors that affect the LSFE are revealed, which can provide significant guidance for the composition optimization of HEAs.

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