Abstract
The structure of the so-called transitive two-phase zone (TTZ) in space of concentrations of step-growth monomers belonging to two aggregate states – melt and crystal ones – is considered for the kinetic crystallization regime of two-component metal melts. Dependences of the frequencies of joining of step-growth monomers to TTZ monolayers on the temperature of the crystallizing system and the binding energy of the two nearest neighboring particles (step-growth monomers in the TTZ model) belonging to different aggregate states are considered. Variants of systems of stationary kinetic equations describing the TTZ structure are presented that can be used to investigate the disordering processes in two-component crystals with simple cubic lattice.
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