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Auteurs principaux: Nuradinov, A. S, Nogovitsyn, A. V., Sirenko, K. A., Nuradinov, I. A., Chystiakov, O. V., Derecha, D. O.
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2406.16472
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author Nuradinov, A. S
Nogovitsyn, A. V.
Sirenko, K. A.
Nuradinov, I. A.
Chystiakov, O. V.
Derecha, D. O.
author_facet Nuradinov, A. S
Nogovitsyn, A. V.
Sirenko, K. A.
Nuradinov, I. A.
Chystiakov, O. V.
Derecha, D. O.
contents The aim of this work is the development of scientifically based ways of influencing the process of nucleation of crystallization centres to control the cast structure and the properties of blanks at the casting stage. The possibility of controlling crystal nucleation was studied on transparent modelling media using the droplet method. The dependence of the crystallization kinetics of drops with a size of 100÷200 μm on the overheating temperature, the exposure in the overheated state and the degree of supercooling was established. The curves of the crystallization kinetics of drops from their melts as the criteria for evaluating the crystallization process were chosen. The nature of the change in the experimental media crystallization kinetics curves confirms the assumption about the decisive role of impurities in the crystallization processes of any alloys. The confirmation of the hypothesis about the decisive role of impurities in the processes of crystallization from positions of heterogeneous nucleation is the dependence of the number of solidified drops with the same diameter on the degree and duration of their overheating.
format Preprint
id arxiv_https___arxiv_org_abs_2406_16472
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Physical simulation of nucleation and crystallization processes in transparent organic melts
Nuradinov, A. S
Nogovitsyn, A. V.
Sirenko, K. A.
Nuradinov, I. A.
Chystiakov, O. V.
Derecha, D. O.
Materials Science
Applied Physics
The aim of this work is the development of scientifically based ways of influencing the process of nucleation of crystallization centres to control the cast structure and the properties of blanks at the casting stage. The possibility of controlling crystal nucleation was studied on transparent modelling media using the droplet method. The dependence of the crystallization kinetics of drops with a size of 100÷200 μm on the overheating temperature, the exposure in the overheated state and the degree of supercooling was established. The curves of the crystallization kinetics of drops from their melts as the criteria for evaluating the crystallization process were chosen. The nature of the change in the experimental media crystallization kinetics curves confirms the assumption about the decisive role of impurities in the crystallization processes of any alloys. The confirmation of the hypothesis about the decisive role of impurities in the processes of crystallization from positions of heterogeneous nucleation is the dependence of the number of solidified drops with the same diameter on the degree and duration of their overheating.
title Physical simulation of nucleation and crystallization processes in transparent organic melts
topic Materials Science
Applied Physics
url https://arxiv.org/abs/2406.16472