The energy stored in the aluminum nanopowder irradiated by electron beam

Andrei V. Mostovshchikov, Alexander P. Ilyin, Alexander A. Azanov, Ivan S. Egorov

Research output: Chapter in Book/Report/Conference proceedingConference contribution

10 Citations (Scopus)

Abstract

The influence of the electron beam irradiation on the parameters of aluminum nanopowder oxidation by heating in air was studied. It was found that the oxidation starts at the temperature in the range from 410° C to 460° C and independent on the radiation dose. The degree of oxidation varied from 44.4 % to 58.3 % and its dependence on the radiation dose was not established. The heat energy release occurred in two stages: at the first stage (up to ∼ 660° C) in general the increase of the thermal effect was observed. At the second oxidation stage of irradiated aluminum nanopowder the growth of the thermal effect also observed. The peak of heat effect achieved by irradiation (45.0 kGy absorbed dose) was 2576 J/g higher than the thermal effect for non-irradiated aluminum nanopowder. The energy stored is an additional motivating factor in the synthesis of composite materials, intermetallic compounds, hydrogen producing reactions and synthesis of various kinds.

Original languageEnglish
Title of host publicationHigh Technology
Subtitle of host publicationResearch and Applications, 2015
PublisherTrans Tech Publications Ltd
Pages639-642
Number of pages4
ISBN (Print)9783038357087
DOIs
Publication statusPublished - 1 Jan 2016
Event4th International Conference for Young Scientists High Technology: Research and Applications, HTRA 2015 - Tomsk, Russian Federation
Duration: 21 Apr 201524 Apr 2015

Publication series

NameKey Engineering Materials
Volume685
ISSN (Print)1013-9826

Conference

Conference4th International Conference for Young Scientists High Technology: Research and Applications, HTRA 2015
CountryRussian Federation
CityTomsk
Period21.4.1524.4.15

Fingerprint

Aluminum
Thermal effects
Electron beams
Dosimetry
Oxidation
Irradiation
Intermetallics
Hydrogen
Heating
Composite materials
Air
Temperature

Keywords

  • Aluminum nanopowder
  • Electron beam
  • Nanopowder
  • Powder materials
  • Sintering AIDS
  • Stored energy

ASJC Scopus subject areas

  • Materials Science(all)
  • Mechanics of Materials
  • Mechanical Engineering

Cite this

Mostovshchikov, A. V., Ilyin, A. P., Azanov, A. A., & Egorov, I. S. (2016). The energy stored in the aluminum nanopowder irradiated by electron beam. In High Technology: Research and Applications, 2015 (pp. 639-642). (Key Engineering Materials; Vol. 685). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/KEM.685.639

The energy stored in the aluminum nanopowder irradiated by electron beam. / Mostovshchikov, Andrei V.; Ilyin, Alexander P.; Azanov, Alexander A.; Egorov, Ivan S.

High Technology: Research and Applications, 2015. Trans Tech Publications Ltd, 2016. p. 639-642 (Key Engineering Materials; Vol. 685).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Mostovshchikov, AV, Ilyin, AP, Azanov, AA & Egorov, IS 2016, The energy stored in the aluminum nanopowder irradiated by electron beam. in High Technology: Research and Applications, 2015. Key Engineering Materials, vol. 685, Trans Tech Publications Ltd, pp. 639-642, 4th International Conference for Young Scientists High Technology: Research and Applications, HTRA 2015, Tomsk, Russian Federation, 21.4.15. https://doi.org/10.4028/www.scientific.net/KEM.685.639
Mostovshchikov AV, Ilyin AP, Azanov AA, Egorov IS. The energy stored in the aluminum nanopowder irradiated by electron beam. In High Technology: Research and Applications, 2015. Trans Tech Publications Ltd. 2016. p. 639-642. (Key Engineering Materials). https://doi.org/10.4028/www.scientific.net/KEM.685.639
Mostovshchikov, Andrei V. ; Ilyin, Alexander P. ; Azanov, Alexander A. ; Egorov, Ivan S. / The energy stored in the aluminum nanopowder irradiated by electron beam. High Technology: Research and Applications, 2015. Trans Tech Publications Ltd, 2016. pp. 639-642 (Key Engineering Materials).
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