Thermodynamics of solid and liquid aluminium

Thermodynamics of solid and liquid aluminium

Based on thermodynamic calculations, it is shown that in the temperature range of 298–1273 K, heating and cooling of aluminum are thermodynamically equilibrium processes. When aluminum is heated, the molar volume energy of Gibbs decreases and the molar boundary energy of nanocrystals increases. When...

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Bibliographic Details
Main Authors: E. I. Marukovich, V. Yu. Stetsenko, A. V. Stetsenko
Format: Article
Language:English
Published: Belarusian National Technical University 2021-09-01
Series:Литьë и металлургия
Subjects:
aluminum
nanocrystals
crystallization
thermodynamics
gibbs energy
boundary energy
enthalpy
entropy
Online Access:https://lim.bntu.by/jour/article/view/3360
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Summary:Based on thermodynamic calculations, it is shown that in the temperature range of 298–1273 K, heating and cooling of aluminum are thermodynamically equilibrium processes. When aluminum is heated, the molar volume energy of Gibbs decreases and the molar boundary energy of nanocrystals increases. When aluminum is cooled, the molar volume energy of Gibbs increases and the molar boundary energy of nanocrystals decreases. Liquid aluminum is a nanostructured system. Dendritic microcrystals are formed from nanocrystals. They play a large role in the processes of changing the structure of aluminum during its heating and cooling.
ISSN:1683-6065
2414-0406

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