2017 journal article

Alloying effect on the elastic properties of refractory high-entropy alloys

MATERIALS & DESIGN, 114, 243–252.

By: L. Tian*, G. Wang*, J. Harris n, D. Irving n, J. Zhao * & L. Vitos *

co-author countries: China πŸ‡¨πŸ‡³ Hungary πŸ‡­πŸ‡Ί Sweden πŸ‡ΈπŸ‡ͺ United States of America πŸ‡ΊπŸ‡Έ
author keywords: High-entropy alloys; Lattice parameter; Elastic constant; Local lattice distortion; Alloying effect
Source: Web Of Science
Added: August 6, 2018

Ab initio total energy calculations are used to determine the elastic properties of TiZrVNb, TiZrNbMo and TiZrVNbMo high-entropy alloys in the body centered cubic (bcc) crystallographic phase. Calculations are performed using the Vienna Ab initio Simulation Package and the Exact Muffin-Tin Orbitals methods, and the compositional disorder is treated within the frameworks of the special quasi-random structures technique and the coherent potential approximation, respectively. Special emphasis is given to the effect of local lattice distortion and trends against composition. Significant distortion can be observed in the relaxed cells, which result in an overlap of the first and second nearest neighbor (NN) shells represented in the histograms. When going from the four-component alloys TiZrVNb and TiZrNbMo to the five-component TiZrVNbMo, the changes in the elastic parameters follow the expected trends, except that of C44 which decreases upon adding equiatomic Mo to TiZrVNb despite of the large shear elastic constant of elemental Mo. Although the rule of mixtures turns out to be a useful tool to estimate the elastic properties of the present HEAs, to capture the more delicate alloying effects one needs to resort to ab initio results.