Fractal nanoparticles of phase-separating solid solutions: morphology-dependent phase equilibria in tungsten heavy pseudo-alloys
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Karaganda University named after academician E.A.Buketov
Abstract
In this paper, we simulate thermodynamically the morphology-dependent phase equilibria in core-shell
nanoparticles of a phase-separating solid solution using the example of W-Cr heavy alloy. The morphology of a
nanoparticle is described in the framework of the fractal geometry methods. It is shown that there are two
possible heterogeneous states in a nanoparticle while the compositions of phases in both states differ from each
other. The dependences of mutual solubilities of components on the temperature are obtained while the behavior
of these dependences significantly differs depending on the particular state and the morphology of nanoparticle
under consideration. In nanoparticles of a very complicated morphology, the phase separation itself gets
suppressed and the nanoparticle remains in the homogeneous state at the temperatures significantly below the
macroscopic value of the upper critical dissolution temperature. The demonstrated regularities are explained
based on three mechanisms of reducing the free energy of the system and the “competition” between them. In the
final section, a method for calculating the equlibrium size distributions and average characteristics of
nanoparticle ensembles is described along with a technique of measuring nanoparticle fractal dimensions based
on the microscopy data.
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Shishulin A.V. Fractal nanoparticles of phase-separating solid solutions: morphology-dependent phase equilibria in tungsten heavy pseudo-alloys/ A.V. Shishulin, A.A. Potapov, A.V. Shishulina // Eurasian Physical Technical Journal. – 2023. – Vol.20. – № 4(46). – pp. 125-132.