The influence of microwave radiation on the thermal stability of aluminum nanopowder

Abstract

The influence of microwave radiation with a power flux density of 80 W/cm² and carrier frequency of 9.4 GHz on the thermal stability of aluminum nanopowder after irradiation in air is studied. It is established that, after irradiation, the chemical activity of aluminum nanopowder increases, the temperature for the beginning of its oxidation decreases by 40°, while the thermal effect of oxidation decreases by 13.5%.

Original language	English
Pages (from-to)	344-346
Number of pages	3
Journal	Technical Physics Letters
Volume	42
Issue number	4
DOIs	https://doi.org/10.1134/S1063785016040118
Publication status	Published - 1 Apr 2016

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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Mostovshchikov, A. V., Il’in, A. P., Chumerin, P. Y., Yushkov, Y. G., Vaulin, V. A., & Alekseev, B. A. (2016). The influence of microwave radiation on the thermal stability of aluminum nanopowder. Technical Physics Letters, 42(4), 344-346. https://doi.org/10.1134/S1063785016040118

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abstract = "The influence of microwave radiation with a power flux density of 80 W/cm2 and carrier frequency of 9.4 GHz on the thermal stability of aluminum nanopowder after irradiation in air is studied. It is established that, after irradiation, the chemical activity of aluminum nanopowder increases, the temperature for the beginning of its oxidation decreases by 40°, while the thermal effect of oxidation decreases by 13.5%.",

author = "Mostovshchikov, {A. V.} and Il{\textquoteright}in, {A. P.} and Chumerin, {P. Y.} and Yushkov, {Y. G.} and Vaulin, {Victor Alexeevich} and Alekseev, {B. A.}",

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AU - Vaulin, Victor Alexeevich

AU - Alekseev, B. A.

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AB - The influence of microwave radiation with a power flux density of 80 W/cm2 and carrier frequency of 9.4 GHz on the thermal stability of aluminum nanopowder after irradiation in air is studied. It is established that, after irradiation, the chemical activity of aluminum nanopowder increases, the temperature for the beginning of its oxidation decreases by 40°, while the thermal effect of oxidation decreases by 13.5%.

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