Abstract
The mixing properties of CuPd alloy in molten state at 1350 K have been studied by assuming strong interaction between Cu and Pd atoms. Regular associated solution model has been used for the study. The asymmetry in integral excess free energy of mixing, heat of mixing and entropy of mixing has been well explained.
Highlights
The knowledge of thermodynamic properties of binary liquid alloys is necessary for the design and development of reliable materials for high temperature application
The mixing properties of CuPd alloy in molten state at 1350 K have been studied by assuming strong interaction between Cu and Pd atoms
We intend to study the thermodynamic properties of CuPd alloys in liquid state at 1350 K on the basis of regular associated solution model
Summary
The knowledge of thermodynamic properties of binary liquid alloys is necessary for the design and development of reliable materials for high temperature application. Regular associated solution model has been proved to study the thermodynamic and structural properties of weakly, moderately and highly interacting liquid alloys [1,2,3,4,5,6] by assuming the formation of complex. Such assumptions have been used in different models [7,8,9,10,11,12].
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