Interatomic interactions and thermodynamic parameters in dilute solid solutions of the Ag-Au system

The thermodynamic parameters of interaction and the enthalpy parameters are of fundamental importance in the theory of solutions, i.e., the coefficients of the expansion of partial excess thermodynamic functions into series in terms of the concentrations of the dissolved components. In the approxima...

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Published in:Physics of metals and metallography 2015-07, Vol.116 (7), p.671-675
Main Authors: Bogdanov, V. I., Bol’shov, L. A., Korneichuk, E. A., Popov, V. A., Korneichuk, S. K., Badanin, D. A.
Format: Article
Language:English
Subjects:
Alloys
Chemistry and Materials Science
Diffusion
Dilution
Dissolution
Gold
Materials Science
Mathematical analysis
Mathematical models
Metallic Materials
Phase Transformations
Silver
Solid solutions
Structure
Thermodynamics
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container_title Physics of metals and metallography
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creator Bogdanov, V. I.
Bol’shov, L. A.
Korneichuk, E. A.
Popov, V. A.
Korneichuk, S. K.
Badanin, D. A.
description The thermodynamic parameters of interaction and the enthalpy parameters are of fundamental importance in the theory of solutions, i.e., the coefficients of the expansion of partial excess thermodynamic functions into series in terms of the concentrations of the dissolved components. In the approximation of pairwise interactions between the impurity atoms in the solution, the above parameters can be computed using the methods of the density-functional theory in the electron theory of alloys. As an example, the substitutional solid solutions of Au in Ag have been chosen, which are formed by atoms of the components with close chemical properties, in which the deformation interactions should be small, and in which there is no need to take into account the complex magnetic contributions to the pair potentials. The total energy of the dilute solution of Au in Ag and the contributions from the chemical and strain-induced interactions to the potentials of pairwise interactions are calculated up to the seventh coordination shell. Quite satisfactory agreement with the thermodynamic parameters obtained from the experimental data has been obtained.
doi_str_mv 10.1134/S0031918X15070029
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subjects Alloys
Chemistry and Materials Science
Diffusion
Dilution
Dissolution
Gold
Materials Science
Mathematical analysis
Mathematical models
Metallic Materials
Phase Transformations
Silver
Solid solutions
Structure
Thermodynamics
title Interatomic interactions and thermodynamic parameters in dilute solid solutions of the Ag-Au system
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