Abstract:The isothermal section of the Au-Pt-Sn ternary system at 700 ℃ was investigated by X-ray diffractometer and electron probe microanalyzer. The results show that the isothermal section of the Au-Pt-Sn ternary system at 700 ℃ is composed of three single-phase regions, seven two-phase regions and six three-phase regions. The six three-phase regions including Pt₃Sn+FCC-A1+PtSn, PtSn+FCC-A1+Au₅Sn, PtSn+Pt₃Sn+Au₅Sn, Pt₃Sn+FCC-A1+Au₅Sn, PtSn+Pt₂Sn₃+Liquid, PtSn+FCC-A1+Liquid. The spinodal decomposition reaction of Au-Pt alloy exists in the Au-Pt-Sn system. With decreasing Pt content, the spinodal decomposition phase in the alloy gradually disappears, and it completely disappears in Au₁₆Pt₃₀Sn₅₄ and Au₁₆Pt₂₀Sn₆₄ samples. Because the melting point of Pt-Sn alloy phase is higher than that of Au-Sn alloy, most of phases in 700 ℃ isothermal section are Pt-Sn alloy, while Au-Sn alloy phase mainly exists in liquid phase. The microstructures distribution of Au₁₆Pt₆₉Sn₁₅, Au₁₆Pt₅₄Sn₃₀ and Au₁₆Pt₄₂Sn₄₂ alloy are more uniform and the strengths of the alloy are higher than that of Au₁₆Pt₃₀Sn₅₄ and Au₁₆Pt₂₀Sn₆₄ alloy because of the existence of spinodal decomposition phase.

Key words: Au-Pt-Sn system; phase diagram; isothermal section; microstructure; phase equilibrium; spinodal decomposition