Phase Equilibria in the Ti-Zr-Sn System

“…The nature of the phase equilibria in the ternary system formed by group IV p -element (tin) and d- metals (titanium and zirconium) was established based on experimental data [ 5 ]. Phase equilibrium in the zirconium corner of the Co–Ni–Zr ternary system and the interaction of its alloys with hydrogen were also considered [ 6 , 7 ]. Partial and integral mixing enthalpies of the melts of the Gd–Sn [ 8 , 9 ], In–Sr [ 10 ], and Ni–Pr [ 11 ] binary systems, as well as the Gd–Ni–Sn [ 9 ] ternary system were determined by isoperibolic calorimetry.…”

Information on the Annual Report of the Ukrainian Commission of Phase Diagrams and Thermodynamics (2022)

“…The nature of the phase equilibria in the ternary system formed by group IV p -element (tin) and d- metals (titanium and zirconium) was established based on experimental data [ 5 ]. Phase equilibrium in the zirconium corner of the Co–Ni–Zr ternary system and the interaction of its alloys with hydrogen were also considered [ 6 , 7 ]. Partial and integral mixing enthalpies of the melts of the Gd–Sn [ 8 , 9 ], In–Sr [ 10 ], and Ni–Pr [ 11 ] binary systems, as well as the Gd–Ni–Sn [ 9 ] ternary system were determined by isoperibolic calorimetry.…”

Information on the Annual Report of the Ukrainian Commission of Phase Diagrams and Thermodynamics (2022)

Experimental Investigations on the Interdiffusion Behaviors and Mechanical Properties of Ti-rich Ti-Mo-Zr System by Using the Diffusion Couple Technique