About brownian movement in liquids

It has been shown that Brownian movement in water occurs as a result of elastic collisions of ice nanocrystals with Brownian particles. Water consists of 87 % of ice nanocrystals and 13 % of water molecules. At 300 K, the ice nanocrystal in water on average consists of 24 water molecules. Brownian m...

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Main Authors:	E. I. Marukovich, V. Yu. Stetsenko, A. V. Stetsenko
Format:	Article
Language:	English
Published:	Belarusian National Technical University 2020-12-01
Series:	Литьë и металлургия
Subjects:	brownian movement water liquids brownian particles nanocrystals molecules melt
Online Access:	https://lim.bntu.by/jour/article/view/3256
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author	E. I. Marukovich V. Yu. Stetsenko A. V. Stetsenko
author_facet	E. I. Marukovich V. Yu. Stetsenko A. V. Stetsenko
author_sort	E. I. Marukovich
collection	DOAJ
description	It has been shown that Brownian movement in water occurs as a result of elastic collisions of ice nanocrystals with Brownian particles. Water consists of 87 % of ice nanocrystals and 13 % of water molecules. At 300 K, the ice nanocrystal in water on average consists of 24 water molecules. Brownian movement is an experimental confirmation of the nanocrystalline structure of liquids. This concept of liquids is of great importance for the theory of crystallization and modification of alloys. In metallic liquids, Brownian motion refers to microscopic non-metallic particles and intermetallides that have densities comparable to melt densities. In liquid aluminum alloys, Brownian particles are microscopic alumina particles that remain in the castings when they solidify.
format	Article
id	doaj-art-40304da22df9415fb63c2749aded0db7
institution	Kabale University
issn	1683-6065 2414-0406
language	English
publishDate	2020-12-01
publisher	Belarusian National Technical University
record_format	Article
series	Литьë и металлургия
spelling	doaj-art-40304da22df9415fb63c2749aded0db72025-02-03T11:51:12ZengBelarusian National Technical UniversityЛитьë и металлургия1683-60652414-04062020-12-0104757710.21122/1683-6065-2020-4-75-773152About brownian movement in liquidsE. I. Marukovich0V. Yu. Stetsenko1A. V. Stetsenko2Institute of Technology of Metals of National Academy of Sciences of BelarusInstitute of Technology of Metals of National Academy of Sciences of BelarusBelarusian-Russian UniversityIt has been shown that Brownian movement in water occurs as a result of elastic collisions of ice nanocrystals with Brownian particles. Water consists of 87 % of ice nanocrystals and 13 % of water molecules. At 300 K, the ice nanocrystal in water on average consists of 24 water molecules. Brownian movement is an experimental confirmation of the nanocrystalline structure of liquids. This concept of liquids is of great importance for the theory of crystallization and modification of alloys. In metallic liquids, Brownian motion refers to microscopic non-metallic particles and intermetallides that have densities comparable to melt densities. In liquid aluminum alloys, Brownian particles are microscopic alumina particles that remain in the castings when they solidify.https://lim.bntu.by/jour/article/view/3256brownian movementwaterliquidsbrownian particlesnanocrystalsmoleculesmelt
spellingShingle	E. I. Marukovich V. Yu. Stetsenko A. V. Stetsenko About brownian movement in liquids Литьë и металлургия brownian movement water liquids brownian particles nanocrystals molecules melt
title	About brownian movement in liquids
title_full	About brownian movement in liquids
title_fullStr	About brownian movement in liquids
title_full_unstemmed	About brownian movement in liquids
title_short	About brownian movement in liquids
title_sort	about brownian movement in liquids
topic	brownian movement water liquids brownian particles nanocrystals molecules melt
url	https://lim.bntu.by/jour/article/view/3256
work_keys_str_mv	AT eimarukovich aboutbrownianmovementinliquids AT vyustetsenko aboutbrownianmovementinliquids AT avstetsenko aboutbrownianmovementinliquids

About brownian movement in liquids

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