The 9th International Conference on Multiscale Materials Modeling

講演情報

Symposium

D. Data-Driven and Physics-Informed Materials Discovery and Design

[SY-D3] Symposium D-3

2018年11月1日(木) 14:00 〜 15:30 Room8

Chair: Daryl Chrzan(UC Berkeley, USA)

[SY-D3] Stability evaluation of high-entropy alloys via accurate on-lattice model

Evgenii Meshkov1, Ivan Novoselov1, Alexander Shapeev2, Alexey Yanilkin1 (1.All-Russian Research Institute of Automatics (VNIIA), Russia, 2.Skolkovo Institute of Science and Technology, Russia)

High-entropy alloys (HEA) are a new promising class of metallic materials. Some of them demonstrate excellent mechanical properties at elevated temperatures, outstanding corrosion resistance, and high radiation tolerance. However, atomistic modeling of HEAs is hindered by their high chemical diversity. A novel approach is required to perform accurate and computationally feasible atomic-scale description of HEA.

In our approach, energy of the system is represented as a sum of contributions of local atomic environments. These contributions are parameterized by low-rank multidimensional tensors in order to reproduce DFT results [1]. This model is then embedded into kinetic Monte-Carlo to perform large-scale simulations. This approach gives an accurate description of alloys with a large number of elements.

We employ the proposed approach to evaluate thermodynamic stability of several multicomponent alloys, and to search for new single-phase compositions.
[1] Shapeev, A. (2017) Computational Materials Science, 139, 26-30