Study of artifacts in thermodynamic and structural properties of Li-Mg alloy in liquid state using linear and exponential models.

Temperature-dependent interaction parameters of Redlich-Kister (R-K) polynomials for Li-Mg alloy in liquid phase have been optimized using experimental data in the framework of linear and exponential models. These parameters have then been used to compute the thermodynamic properties (excess Gibbs free energy of mixing, enthalpy of mixing and activity) and structural property (concentration fluctuations in the long-wavelength limit) of the alloy at temperatures 1000 K, 1300 K, 1600 K, 1900 K, and 2200 K. The negative values of excess Gibbs free energy of mixing computed using linear T-dependent parameters increases with the rise in the temperature of the system beyond 1000 K while the same physical quantity computed using the exponential T-dependent interaction parameters decreases with the rise in temperatures and does not show any unusual trends up to 2200 K. Similar behavior has been found in the case of other thermodynamic and structural functions. The unusual behavior that appears in the thermodynamic and structural functions computed using linear T-dependent parameters can be eliminated if these functions are computed using exponential T-dependent parameters. © 2021 The Author(s).

Citation

R K Gohivar, S K Yadav, R P Koirala, D Adhikari. Study of artifacts in thermodynamic and structural properties of Li-Mg alloy in liquid state using linear and exponential models. Heliyon. 2021 Mar;7(3):e06613

PMID: 33869849

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