Mathematical Modeling of Crystallization Process from a Supercooled Binary Melt

Makoveeva, E.; Alexandrov, D.; Ivanov, A.

doi:10.1002/mma.6970

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Название:	Mathematical Modeling of Crystallization Process from a Supercooled Binary Melt
Авторы:	Makoveeva, E. Alexandrov, D. Ivanov, A.
Дата публикации:	2021
Издатель:	John Wiley and Sons Ltd Wiley
Библиографическое описание:	Makoveeva E. Mathematical Modeling of Crystallization Process from a Supercooled Binary Melt / E. Makoveeva, D. Alexandrov, A. Ivanov // Mathematical Methods in the Applied Sciences. — 2021. — Vol. 44. — Iss. 16. — P. 12244-12251.
Аннотация:	The article is concerned with the analytical solution to the integro-differential system of balance and kinetic equations that describe the crystal growth phenomenon in a binary system for various nucleation kinetics. The effect of impurity concentration on the evolutionary behavior of crystals is shown. The nonlinear dynamics of a supercooled binary melt is studied with allowance for the withdrawal mechanism of product crystals from a metastable liquid of the crystallizer. © 2020 John Wiley & Sons, Ltd.
Ключевые слова:	MATHEMATICAL MODELING PHASE TRANSFORMATIONS CRYSTAL IMPURITIES GROWTH KINETICS INTEGRAL EQUATIONS SUPERCOOLING CRYSTALLIZATION PROCESS GROWTH PHENOMENA IMPURITY CONCENTRATION INTEGRO-DIFFERENTIAL SYSTEM KINETIC EQUATIONS METASTABLE LIQUID NUCLEATION KINETICS PRODUCT CRYSTALS CRYSTALLIZATION
URI:	http://elar.urfu.ru/handle/10995/112153
Условия доступа:	info:eu-repo/semantics/openAccess
Идентификатор SCOPUS:	85092620026
Идентификатор WOS:	000579217500001
Идентификатор PURE:	23818363
ISSN:	0170-4214
DOI:	10.1002/mma.6970
Сведения о поддержке:	This study comprises different parts of research work including (i) the model formulation, approximate analytical solution using the saddle-point technique, and separation of variables method and (ii) numerical simulations based on the analytical solutions obtained. Different parts of the present study were supported by different grants and programs. With this in mind, the authors are grateful to the following foundations, programs, and grants. Theoretical part (i) was supported by the Foundation for the Advancement of Theoretical Physics and Mathematics “BASIS” (20-1-5-82-1). Numerical part (ii) based on the developed analysis was made possible due to the financial support of the Russian Science Foundation (project no. 19-71-10044).
Карточка проекта РНФ:	19-71-10044
Располагается в коллекциях:	Научные публикации ученых УрФУ, проиндексированные в SCOPUS и WoS CC

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