(東北大學 材料各向異性與織構教育部重點實驗室,沈陽 110004)
摘 要: 采用合金法,利用XRD、SEM-EDS測定一系列Mg-Sn-Y三元合金在500 ℃下富Mg角處相平衡關系及各相平衡成分,建立Mg-Sn-Y三元系在500 ℃下富Mg角處的等溫截面相圖。結果表明:Mg-Sn-Y三元系富Mg角處存在Mg2Sn、MgSnY、Sn3Y5和Mg24+xY5 4種化合物與α-Mg固溶體平衡,從而構建3個三相區(qū)和4個兩相區(qū);Sn在α-Mg基體中的固溶度為2.5%~3.9%(摩爾分數),Y在α-Mg基體中的固溶度為1.1%,但二者不能同時固溶到α-Mg基體中,同時Sn3Y5相中大約可以固溶3.6%~4.1%的金屬Mg;由于MgSnY和Sn3Y5等一些高熔點化合物在高溫下能夠穩(wěn)定存在,使得Mg-Sn-Y體系有可能成為一種潛在的新型耐熱鎂合金。
關鍵字: Mg-Sn-Y三元系;相平衡;等溫截面;固溶度
Mg-Sn-Y ternary system at 500 ℃
(Key Laboratory for Anisotropy and Texture of Materials, Ministry of Education,
Northeastern University, Shenyang 110004, China)
Abstract:By equilibrated alloy method the phase equilibria relation and phase equilibria composition of the Mg-riched corner in the Mg-Sn-Y ternary system at 500 ℃ were determined by XRD and SEM-EDS, thus the isothermal section of this ternary system was constructed. The results show that four intermetallic compounds exist in equilibrium with the α-Mg solid solution, i.e. Mg2Sn, MgSnY, Sn3Y5 and Mg24+xY5. Therefore, three three-phase regions and four two-phase regions are constructed. The solubility of Sn and Y in the α-Mg solid solution are 2.5%−3.9% and 1.1% (mole fraction), respectively, but they can not be simultaneously soluted in α-Mg solid solution. In addition, about 3.6%−4.1% Mg is detected in the Sn3Y5 phase. Due to high thermal stability of the compounds such as MgSnY and Sn3Y5, it is thus expected that the Mg-Sn-Y-based alloy could be a promising creep resistant alloy by appropriate alloy design and processing.
Key words: Mg-Sn-Y ternary system; phase equilibrium; isothermal section; solubility
