General purpose potential for glassy and crystalline phases of Cu-Zr alloys based on the ACE formalism

N Leimeroth and J Rohrer and K Albe, PHYSICAL REVIEW MATERIALS, 8, 043602 (2024).

DOI: 10.1103/PhysRevMaterials.8.043602

A general purpose machine -learning interatomic potential (MLIP) for the Cu-Zr system is presented based on the atomic cluster expansion formalism R. Drautz, Phys. Rev. B 99 , 014104 (2019). By using an extensive set of Cu-Zr training data generated withdensity functional theory, this potential describes a wide range of properties of crystalline as well as amorphous phases within the whole compositional range. Therefore, the machine learning interatomic potential (MLIP) can reproduce the experimental phase diagram and amorphous structure with considerably improved accuracy. A massively different short-range order compared to classica interatomic potentials is found in glassy Cu-Zr samples, shedding light on the role of the full icosahedral motif in the material. Tensile tests of B2-CuZr inclusions in an Cu 50 Zr 50 amorphous matrix reveal the occurrence of martensitic phase transformations in this crystal -glass nanocomposite.

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