Abstract
Annealing-induced embrittlement in metallic glasses (MGs) due to the running off of free volume (FV) is detrimental to their practical applications. By adding crystalline W coatings, we demonstrated that the majority of free volume (FV) could be preserved and redistributed in a Zr50.7Cu28Ni9Al12.3 bulk metallic glass (BMG) upon annealing as, thermodynamically, it was unfavorable for the FV to migrate from BMG into crystalline W. Correspondingly, the strength and ductility of the BMG were both enhanced relative to as-cast ones, due likely to decomposition processes such as the formation of Zr- and Cu-rich clusters in the BMG. The results of this study may be applied to avoid annealing-induced embrittlement in BMGs and construct a simple yet effective method to elevate both the strength and ductility of BMGs.
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