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Soviet Atomic Energy

, Volume 59, Issue 2, pp 701–702 | Cite as

Radiation stability of corundum ceramic with pulsed irradiation by fast neutrons

  • O. B. Alekseevskii
  • S. A. Vorob'ev
  • R. G. Ziyakaev
  • V. V. Mameev
Letters to the Editor

Keywords

Radiation Corundum Fast Neutron Pulse Irradiation Radiation Stability 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Literature Cited

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    U. G. Glyamov, N. S. Kostyukov, and A. P. Sokolov, “Electrical conductivity of mullite-corundum ceramic at elevated temperatures during reactor irradiation,” At. Energ.,37, No. 1, 57 (1974).Google Scholar
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    N. P. Antonova, S. N. Makeev, N. I. Senina, and M. I. Manyasev, “Temperature dependence of the specific volume resistance of ceramic materials as a result of pulsed gamma-neutron irradiation,” in: Effect of Radiation on Insulating Materials [in Russian], Filial Akad. Nauk, Tashkent (1977), pp. 34–37.Google Scholar
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    N. S. Kostyukov, V. V. Maslov, and M. I. Muminov, Radiation Stability of Dielectrics [in Russian], Filial Akad. Nauk, Taskent (1981).Google Scholar
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    G. I. Kopylov, Principles of Resonance Kinematics [in Russian], Nauka, Moscow (1970).Google Scholar
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    G. Dell, H. Berry, A. Goland, and O. Lazareth, “Calculation of radiation damage in insulators for fusion reactors,” J. Nucl. Mater.,85–86, 373–377 (1979).Google Scholar
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    C. Coulter and D. Parkin, “Damage energy function in polyatomic materials,” J. Nucl. Mater.,88, 249–260 (1980).Google Scholar
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    D. Parkin and C. Coulter, “Displacement functions in polyatomic materials,” J. Nucl. Mater.,85–86, 611–615 (1979).Google Scholar

Copyright information

© Plenum Publishing Corporation 1986

Authors and Affiliations

  • O. B. Alekseevskii
  • S. A. Vorob'ev
  • R. G. Ziyakaev
  • V. V. Mameev

There are no affiliations available

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