Phase EQUILIBRIA in the Tі–CuTi₂–CuZr₂–Zr REGION of the ternary Cu–Ti–Zr SYSTEM 

Abstract

 The Cu–Ti–Zr system and multicomponent systems on its basis are of practical interest because their alloys have high bulk amorphization capacity. The Cu–Ti–Zr system is divided into two independent subsystems (Ti–CuTi₂–CuZr₂–Zr and Cu–CuTi₂–CuZr) by the quasibinary CuTi₂–CuZr₂ vertical section. In this work, phase equilibria in the Ti–CuTi₂–CuZr₂–Zr subsystem were experimentally studied. The structure of the as-cast binary and ternary alloys and the temperature of phase transformations in the samples that were cast and annealed at 750 °C was studied by physicochemical analysis methods. The results were used to construct the liquidus and solidus surfaces, phase diagram, and vertical sections with 10, 20, and 30 at.% Cu, confirm the congruent formation of binary CuTi₂ and CuZr₂ compounds at 1012 and 1000 °С, and find the composition and temperature of invariant eutectic reactions with their participation. The liquidus surface consists of two surfaces of primary crystallization of continuous series of (βTi, βZr) (β) and Cu(Ti, Zr)₂ (γ) phases, which intersect along the univariant eutectic curve. Liquidus temperatures decrease from the boundary binary systems to the ternary one, reaching the minimum at 845 °C. The solidus surface is characterized by the coexistence of the β and γ phases (β + γ range) over the entire composition range. The copper solubility is from 5 to 8 at.% in the β phase and up to 2 at.% in the γ phase. This two-phase region is formed though the eutectic L⇄ (βTi, βZr) + Cu(Ti, Zr)₂ reaction. There is also a minimum at 845 °C on the solidus surface. The compositions of the two solid and one liquid coexisting phases at the minimum temperature are on a single tie-line, along which the three-phase equilibrium is invariant. The compositions of the phases in this equilibrium are as follows: L_min—Cu₃₀Ti₃₇Zr₃₃, β_min—Cu_10.5Ti₆₂Zr_28.5, and γ_min—Cu₃₂Ti₃₅Zr₃₃ (at.%). According to differential thermal analysis, the minimum temperature of the eutectoid (βTi, βZr)⇄ (αTi, αZr) + Cu(Ti,Zr)₂ transformation is 570 °C.