Abstract:In order to build up Ti-Al-Cr-Mn thermodynamical database, the Al-rich corner of the Al-Cr-Mn system in Ti-Al-Cr-Mn system was assessed by CALPHAD method. The model of stoichiometric compounds, such as Al₆Mn and Al₁₂Mn were considered as Al_m(Cr,Mn)_n, θ_Al₇Cr, η_Al₁₁Cr₂ and μ_Al₄(Cr,Mn) were modeled as Al_m(Al,Cr,Mn)_n. The model of T_HTAl₁₁Mn₄ and γ₂_αAl₈(Cr,Mn)₅ were taken as (Al,Mn)₂₉(Cr,Mn)₁₀ and (Al,Cr)₁₂(Al,Cr,Mn)₅(Al,Cr,Mn)₉, respectively. After that, a serious of thermodynamic optimization and phase diagram calculation were carried. By comparing the calculated the experimental ones, it is shown that the present calculated results are in good agreement with most of the experimental ones, however, Al₈(Cr,Mn)₅ compound only exists as γ₂_αAl₈(Cr,Mn)₅ formal at 1 283 K, the phase diagram of γ₁_βAl₈(Cr,Mn)₅ is also presented. By analyzing Al-Mn system, it is found that γ₁_βAl₈(Cr,Mn)₅ is not stable at 1 283 K, η_Al₁₁Cr₂ is presented at 1 173 K where it can not be found in the experimental ones. By investigating the Al-Cr system, it is found that η_Al₁₁Cr₂ is formed by liquid+Al₄Cr→Al₁₁Cr₂ at temperature below 1 204 K, so when extrapolating into Al-Cr-Mn ternary system, η_Al₁₁Cr₂ will exist stably.

Key words: Al-Cr-Mn; thermodynamic optimization; calculation of phase diagram