Effect of the size factors on the heterophase interaction of exogenous refractory compound nanoparticles with sulfur in a model nickel melt

The dependence of the degree of sulfur removal on the size factors is studied during the heterophase interaction of refractory compound nanoparticles in a nickel melt. These factors are the time of holding of Al 2 O 3 and TiN nanoparticles in a liquid metal (2–10 min), the size and number of Al 2 O...

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Published in	Russian metallurgy Metally Vol. 2012; no. 3; pp. 178 - 184
Main Authors	Anuchkin, S. N., Burtsev, V. T., Samokhin, A. V., Gvozdkov, I. A.
Format	Journal Article
Language	English
Published	Dordrecht SP MAIK Nauka/Interperiodica 01.03.2012 Springer Nature B.V
Subjects	Aluminum oxide Chemistry and Materials Science Materials Science Mathematical models Melts Metallic Materials Nanoparticles Nickel Planetary mills Sulfur Tin RUSSIAN Metallurgy Sulfur Removal Surfactant Cast Iron Size Factor
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Abstract	The dependence of the degree of sulfur removal on the size factors is studied during the heterophase interaction of refractory compound nanoparticles in a nickel melt. These factors are the time of holding of Al 2 O 3 and TiN nanoparticles in a liquid metal (2–10 min), the size and number of Al 2 O 3 and TiN nanoparticles, the time of processing of a nickel powder with nanoparticles in a planetary mill (0−300 min), and the sulfur concentration in a Ni-(0.0775−0.1750 wt %) S melt. It is shown that the degree of sulfur removal increases as the average size of Al 2 O 3 nanoparticles decreases from 150 to 35 nm and that of TiN nanoparticles decreases from 2 × 10 4 to 30 nm. The effect of the number of Al 2 O 3 nanoparticles in a metal on the degree of sulfur removal is considered. A change in the time of processing of a powder mixture in a planetary mill is found to weakly affect the degree of sulfur removal.
AbstractList	The dependence of the degree of sulfur removal on the size factors is studied during the heterophase interaction of refractory compound nanoparticles in a nickel melt. These factors are the time of holding of Al sub(2)O sub(3) and TiN nanoparticles in a liquid metal (2-10 min), the size and number of Al sub(2)O sub(3) and TiN nanoparticles, the time of processing of a nickel powder with nanoparticles in a planetary mill (0-300 min), and the sulfur concentration in a Ni-(0.0775-0.1750 wt %) S melt. It is shown that the degree of sulfur removal increases as the average size of Al sub(2)O sub(3) nanoparticles decreases from 150 to 35 nm and that of TiN nanoparticles decreases from 2 10 super(4) to 30 nm. The effect of the number of Al sub(2)O sub(3) nanoparticles in a metal on the degree of sulfur removal is considered. A change in the time of processing of a powder mixture in a planetary mill is found to weakly affect the degree of sulfur removal. The dependence of the degree of sulfur removal on the size factors is studied during the heterophase interaction of refractory compound nanoparticles in a nickel melt. These factors are the time of holding of Al 2 O 3 and TiN nanoparticles in a liquid metal (2–10 min), the size and number of Al 2 O 3 and TiN nanoparticles, the time of processing of a nickel powder with nanoparticles in a planetary mill (0−300 min), and the sulfur concentration in a Ni-(0.0775−0.1750 wt %) S melt. It is shown that the degree of sulfur removal increases as the average size of Al 2 O 3 nanoparticles decreases from 150 to 35 nm and that of TiN nanoparticles decreases from 2 × 10 4 to 30 nm. The effect of the number of Al 2 O 3 nanoparticles in a metal on the degree of sulfur removal is considered. A change in the time of processing of a powder mixture in a planetary mill is found to weakly affect the degree of sulfur removal. The dependence of the degree of sulfur removal on the size factors is studied during the heterophase interaction of refractory compound nanoparticles in a nickel melt. These factors are the time of holding of Al^sub 2^O3 and TiN nanoparticles in a liquid metal (2-10 min), the size and number of Al^sub 2^O3 and TiN nanoparticles, the time of processing of a nickel powder with nanoparticles in a planetary mill (0-300 min), and the sulfur concentration in a Ni-(0.0775-0.1750 wt %) S melt. It is shown that the degree of sulfur removal increases as the average size of Al^sub 2^O3 nanoparticles decreases from 150 to 35 nm and that of TiN nanoparticles decreases from 2 × 10^sup 4^ to 30 nm. The effect of the number of Al^sub 2^O3 nanoparticles in a metal on the degree of sulfur removal is considered. A change in the time of processing of a powder mixture in a planetary mill is found to weakly affect the degree of sulfur removal.[PUBLICATION ABSTRACT]
Author	Gvozdkov, I. A. Burtsev, V. T. Samokhin, A. V. Anuchkin, S. N.
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SubjectTerms	Aluminum oxide Chemistry and Materials Science Materials Science Mathematical models Melts Metallic Materials Nanoparticles Nickel Planetary mills Sulfur Tin
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Title	Effect of the size factors on the heterophase interaction of exogenous refractory compound nanoparticles with sulfur in a model nickel melt
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