Bulk Metallic Glasses (BMGs) are a fascinating class of materials that exhibit both the mechanical properties of metals and the atomic structure of glasses, which typically lack the long-range order found in crystalline solids. The thermodynamic properties of BMGs are crucial for understanding their stability, processing, and potential applications in various fields. As a result, there is a race to study the thermodynamical properties of Bulk Metallic Glasses (BMGs). The Taylor series expansion is a mathematical tool used to represent a function as an infinite sum of terms calculated from the values of its derivatives at a specific point. However, the success of a Taylor series expansion depends on the behavior of the function and the range of temperatures one is interested in. In the context of thermodynamics and material science, Taylor series expansions can be used to approximate thermodynamic properties or expressions. In the present study, Taylor’s series expansion is used to compute the thermodynamical parameters of some selected undercooled melts characterized under the class of BMGs.

Bulk Metallic Glasses, Thermodynamic Properties, Taylor’s Series