The influence of Ag substitution for Cu on glass-forming ability and thermal properties of Mg-based bulk metallic glasses

Abstract

A group of pseudo-ternary Mg–(Cu–Ag)–Dy bulk metallic glasses (BMGs) was developed by copper mold casting. The glass-forming ability (GFA) is significantly improved by the coexistence of similar elements of Ag and Cu. The critical diameter for glass formation increases from 10mm for ternary Mg56.5Cu32Dy11.5 alloy to 18mm for pseudo-ternary Mg56.5Cu27Ag5Dy11.5 alloy. Thermal stability, crystallization and melting behaviors of the Mg-based BMGs were evaluated. The decrease of Gibbs free energy difference between undercooled liquid and crystalline phases caused by similar element substitution with optimal amount can be responsible for the increase in GFA of the resulting alloys.