First-Principles Study on the Elastic Mechanical Properties and Anisotropies of Gold-Copper Intermetallic Compounds

In this study, first-principles calculations were utilized to investigate the lattice constants, elastic constants, and mechanical properties of gold-copper (Au-Cu) intermetallic compounds (IMCs), including AuCu3, AuCu, and Au3Cu. We also verified the direction dependence of the Young's modulus, shear modulus, and Poisson's ratio of the compounds. The calculated lattice parameters agreed with the experimental data, and the single-crystal elastic constants, elastic modulus E, shear modulus G, bulk modulus B, and Poisson's ratio nu were calculated. For the Young's and shear moduli, AuCu3 showed the highest anisotropy, followed by AuCu and Au3Cu. The Poisson's ratios of AuCu3 and Au3Cu crystals were isotropic on (100) and (111) crystal planes and anisotropic on the (110) crystal plane. However, the Poisson's ratio of the AuCu crystal was anisotropic on (100) and (111) crystal planes and isotropic on the (110) crystal plane.

Automated summary

In this study, first-principles calculations were used to investigate the lattice constants, elastic constants, and mechanical properties of gold-copper intermetallic compounds. The anisotropy of Young's modulus, shear modulus, and Poisson's ratio in different crystal planes was confirmed. The results showed that AuCu3 had the highest anisotropy among the compounds.