Combustion of titanium and chromium powders in the co-flow of a nitrogen-argon mixture

The combustion of the titanium and chromium powders in the co-current filtration mode was considered. We considered an original equipment that allows us to study the combustion of metal powders in a co-flow gas stream. It was demonstrated that the proportion of argon in a binary gas mixture has a gr...

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Published inJournal of physics. Conference series Vol. 1709; no. 1; pp. 12011 - 12019
Main Authors Evseev, N S, Ziatdinov, M Kh, Romandin, V I, Tolynbekov, A B
Format Journal Article
LanguageEnglish
Published IOP Publishing 01.12.2020
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Abstract The combustion of the titanium and chromium powders in the co-current filtration mode was considered. We considered an original equipment that allows us to study the combustion of metal powders in a co-flow gas stream. It was demonstrated that the proportion of argon in a binary gas mixture has a greater influence on the burning temperature of titanium powder than the specific flow rate of the gas mixture. It was found that the actual burning temperature of chromium in the forced filtration mode is higher than the adiabatic temperature and the phenomenon of superadiabatic heating takes place. This method has high energy efficiency and allows you to get nitrides without the use of high pressures. It was found that co-current filtration promotes the formation of Cr2N nitride.
AbstractList The combustion of the titanium and chromium powders in the co-current filtration mode was considered. We considered an original equipment that allows us to study the combustion of metal powders in a co-flow gas stream. It was demonstrated that the proportion of argon in a binary gas mixture has a greater influence on the burning temperature of titanium powder than the specific flow rate of the gas mixture. It was found that the actual burning temperature of chromium in the forced filtration mode is higher than the adiabatic temperature and the phenomenon of superadiabatic heating takes place. This method has high energy efficiency and allows you to get nitrides without the use of high pressures. It was found that co-current filtration promotes the formation of Cr2N nitride.
Abstract The combustion of the titanium and chromium powders in the co-current filtration mode was considered. We considered an original equipment that allows us to study the combustion of metal powders in a co-flow gas stream. It was demonstrated that the proportion of argon in a binary gas mixture has a greater influence on the burning temperature of titanium powder than the specific flow rate of the gas mixture. It was found that the actual burning temperature of chromium in the forced filtration mode is higher than the adiabatic temperature and the phenomenon of superadiabatic heating takes place. This method has high energy efficiency and allows you to get nitrides without the use of high pressures. It was found that co-current filtration promotes the formation of Cr 2 N nitride.
Author Romandin, V I
Ziatdinov, M Kh
Evseev, N S
Tolynbekov, A B
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Cites_doi 10.1134/S1990793117050116
10.1134/S1063785018100255
10.1007/BF00756241
10.1007/s11182-017-1034-6
10.3103/S1061386214030029
10.1134/S0010508214030071
10.1007/s10573-009-0004-x
10.1134/S1990793120010133
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10.1134/S0010508211030063
10.1007/BF00789009
10.1016/0010-2180(93)90076-F
10.3390/pr8091056
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Snippet The combustion of the titanium and chromium powders in the co-current filtration mode was considered. We considered an original equipment that allows us to...
Abstract The combustion of the titanium and chromium powders in the co-current filtration mode was considered. We considered an original equipment that allows...
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Title Combustion of titanium and chromium powders in the co-flow of a nitrogen-argon mixture
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