Mykola Pasichnyy scite author profile

Peculiarities of kinetics of the solid–solid phase transition between single-phase and two-phase states in a nanopowder are considered here. We present a numerical assessment of the time-dependent behaviour of a supersaturated nanosystem undergoing temperature cycling. We demonstrate a distinct size-induced hysteresis and its peculiarities. The analysis indicates that as the system size decreases the hysteresis loop narrows, showing a tendency to disappearance. The model predictions are demonstrated for a sample system with general hypothetical properties. The results are found to depend on such thermodynamic and kinetic constraints as the size, the rate of temperature cycling, energy barriers for nucleation and diffusion, mechanisms of nucleation, and scatter in particle sizes of a nanopowder. The newly obtained results may be used for the achievement of an alternative method of information recording in present-day and future technologies.

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Application of a Stochastic Kinetic Mean Field (SKMF) Method to Ordering Substitutional Atoms in Macro- and Nanosize F.C.C. Lattices

Bezpalchuk¹,

Pasichnyy²,

Гусак³

2016

Metallofiz. Noveishie Tekhnol.

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У роботі представлено застосування стохастичного кінетичного середньо-польового (SKMF-Stochastic Kinetic Mean Field) методу до впорядкуван-ня стопів типу A 3 B 1 . Продемонстровано синергію впорядкування і сеґре-ґації в кубічних наночастинках бінарного стопу. Проведено моделювання впливу розмірного ефекту та залежности впорядкування бінарного стопу від дифузійної асиметрії. Показано залежність часу затримки впорядку-вання фази А 3 В 1 від амплітуди шуму в методі SKMF і залежність парамет-ру порядку від температури за відсутности шуму. Змодельовано процес розпаду з упорядкуванням фази А 3 В 1 для метастабільного твердого роз-чину і вплив амплітуди шуму на нього.Ключові слова: дифузія, впорядкування, наносистема, середньопольовий метод, моделювання.В работе представлено применение стохастического кинетического сред-неполевого (SKMF-Stochastic Kinetic Mean Field) метода к процессу упо-рядочения сплавов типа A 3 B 1 . Продемонстрирована синергия упорядоче-ния и сегрегации в кубических наночастицах бинарного сплава. Проведе-но моделирование влияния размерного эффекта и зависимости упорядо-

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Mykola Pasichnyy

Stochastic kinetic mean field model

Model of Lateral Growth Stage during Reactive Phase Formation

Diffusion‐Controlled Solid State Reactions

Size-induced hysteresis in the process of nucleation and phase separation in a nanopowder

Application of a Stochastic Kinetic Mean Field (SKMF) Method to Ordering Substitutional Atoms in Macro- and Nanosize F.C.C. Lattices

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