Influence of squeeze casting pressure and heat treatment on microstructure and mechanical properties of Mg94Ni2Y4 alloy with LPSO structure

Abstract

Ternary Mg94Ni2Y4 (at%) alloy was prepared by conventional gravity casting or direct squeezing casting and then subjected to T6 heat treatment. The influence of squeeze casting pressure and heat treatment on microstructure evolution and mechanical properties of Mg94Ni2Y4 alloy containing long period stacking ordered (LPSO) structure was studied. The results show that gravity cast Mg94Ni2Y4 alloy consisted of primary α-Mg, 18R LPSO and eutectic structure containing α-Mg, LPSO and Mg2Ni phases. The application of pressure cannot change phase constituents and the type of LPSO phase. With the increase of squeeze casting pressure, microstructure was refined, the volume fraction of LPSO was decreased while that of eutectic structure was increased. Under the highest pressure of 320MPa, kinking of LPSO phase was induced and the best mechanical properties were obtained, with the ultimate tensile strength of 250MPa, the yield strength of 140MPa and the elongation of 8%. They were improved by 20.2%, 22.8% and 45.5%, respectively, than those of gravity cast Mg94Ni2Y4. After heat treatment, bulk-shaped LPSO phase transformed into rod-shaped one, but no lamellar 14H LPSO was precipitated in the matrix. Besides, the application of squeeze casting pressure prevented LPSO from delaminating during heat treatment.