【 摘 要 】

A quantitative measure of the stability of a glass as compared to its corresponding crystalline state can be obtained by calculating the thermodynamic parameters, such as the Gibbs free energy difference (𝛥�?), entropy difference (𝛥���??) and the enthalpy difference (𝛥�?) between the super-cooled liquid and the corresponding crystalline phase. 𝛥�? is known as the driving force of crystallization. The driving force of crystallization (𝛥�?) provides very important information about the glass-forming ability (GFA) of metallic glasses (MGs). Lesser the driving force of crystallization more is the GFA. The 𝛥�? varies linearly with the critical size (�??_�?). According to Battezzati and Garonne the parameter �? ( = (1�?(𝛥�?_�?/𝛥�?_�?))/(1�?(�?? _�?/�?? _�?))) in the expression for 𝛥�? should be a constant (i.e., 0.8), but its uniqueness is not observed for all MGs. The thermal stability of various alloy compositions is studied by their undercooled liquid region (𝛥���?? = �?? _�? �? �?? _�??). Large 𝛥���?? _�? implies greater stability against crystallization of the amorphous structure. Other GFA parameters are also calculated and correlated with critical size (�??_�?).

【 授权许可】

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