Litcius/Paper detail

Dynamical law of the phase interface motion in the presence of crystals nucleation

Liubov V. Toropova, Dmitri V. Alexandrov

2022Scientific Reports25 citationsDOIOpen Access PDF

Abstract

In this paper, we develop a theory of solid/liquid phase interface motion into an undercooled melt in the presence of nucleation and growth of crystals. A set of integrodifferential kinetic, heat and mass transfer equations is analytically solved in the two-phase and liquid layers divided by the moving phase transition interface. To do this, we have used the saddle-point method to evaluate a Laplace-type integral and the small parameter method to find the law of phase interface motion. The main result is that the phase interface Z propagates into an undercooled melt with time t as [Formula: see text] with allowance for crystal nucleation. The effect of nucleation is in the second contribution, which is proportional to [Formula: see text] whereas the first term [Formula: see text] represents the well-known self-similar solution. The nucleation and crystal growth processes are responsible for the emission of latent crystallization heat, which reduces the melt undercooling and constricts the two-phase layer thickness (parameter [Formula: see text]).

Topics & Concepts

Phase (matter)AlgorithmMaterials sciencePhysicsComputer scienceQuantum mechanicsSolidification and crystal growth phenomenaFluid Dynamics and Thin FilmsNonlinear Dynamics and Pattern Formation