First-Principles Study on Thermodynamic, Structural, Mechanical, Electronic, and Phonon Properties of tP16 Ru-Based Alloys

Abstract: Transition metal-ruthenium alloys are promising candidates for ultra-high-temperature structural applications. However, the mechanical and electronic characteristics of these alloys are not well understood in the literature. This study uses first-principles density functional theory calculations to explore the structural, electronic, mechanical, and phonon properties of X3Ru (X = Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, and Zn) binary alloys in the tP16 crystallographic phase. We find that Mn3Ru, Sc3Ru, Ti3Ru, V3Ru,… Show more

“…While the Ru based transition metal alloys can possibly crystallize in various crystallographic phases including D0c, tP16, A15, B2, and L1 2, only their properties in the A15 [16,17,21], D0c [22] and tP16 [23,24], have been explored so far. Therefore, there is need to understand their behavior across all known stable phases to discover novel materials for high temperature structural applications.…”

First-principles study of stability and electronic properties of B2 X–Ru alloys for high-temperature structural applications

“…While the Ru based transition metal alloys can possibly crystallize in various crystallographic phases including D0c, tP16, A15, B2, and L1 2, only their properties in the A15 [16,17,21], D0c [22] and tP16 [23,24], have been explored so far. Therefore, there is need to understand their behavior across all known stable phases to discover novel materials for high temperature structural applications.…”

First-principles study of stability and electronic properties of B2 X–Ru alloys for high-temperature structural applications

ZrN doped with 3d transition metals: a computational investigation of main physical properties for high-temperature structural applications