Structural, mechanical and thermodynamic properties of Mg24RE5: 24 RE 5: A first-principles investigation

Magnesium (Mg) alloys, especially high-modulus Mg alloys, are catching more and more attention for their excellent performance. Doping rare earth elements (RE) and then generating hard intermetallic is one of the popular ways to strengthen the Mg alloys. As an important intermetallic, Mg24RE5 24 RE 5 is rarely investigated. In this work, we comprehensively investigate the structural, mechanical, and thermodynamic properties of Mg24RE5 24 RE 5 by first-principles calculations. The accuracy of our results is confirmed by comparing with limited previous results. All Mg24RE5 24 RE 5 are energy-stable, mechanically stable, and dynamically stable. The lattice constant is almost linear with the ionic radii of the corresponding RE elements. Mg24Y5 24 Y 5 shows the largest Young's modulus (54.6 GPa), followed by Mg24Lu5 24 Lu 5 and Mg24Tm5, 24 Tm 5 , while Mg24Sm5 24 Sm 5 and Mg24Gd5 24 Gd 5 show the lowest anisotropy. Moreover, we calculated the thermodynamic properties for all Mg24RE5 24 RE 5 and obtained the critical temperature for heat capacity. All in all, this work provides plentiful fundamental data for designing RE-containing Mg alloys.