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RU
Vol 209
Pages:
229-233
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RUS
Article

Thermochemical processing technology development of austenitic corrosion-resistant chromium-nickel steels for internal housiong elements to improve their hydrogen resistance

Authors:
A. P. Petkova1
O. Y. Ganzulenko2
About authors
  • 1 — Ph.D., Dr.Sci. professor National Mineral Resources University (Mining University)
  • 2 — senior lecturer National Mineral Resources University (Mining University)
Date submitted:
2013-09-19
Date accepted:
2013-11-19
Date published:
2014-07-18

Abstract

The article presents the developed chemical and heat treatment technology of austenitic welded steel to create a multilayer boot systems of hydride fuel cell products and advanced stationary and transport nuclear power generating facilities. The rational choice of the chemical composition of the coating material, which provides a significant reduction in its hydrogen permeability in conditions of high temperatures and hydrogen-containing environments is proved.

Область исследования:
(Archived) Materials science and art materials processing
Keywords:
austenitic steels hydrogen resistance stability of physical and mechanical properties thermochemical treatment
Go to volume 209

References

  1. Nechaev Y.S. Actual problems of aging, hydrogen embrittlement and stress corrosion damage of steel and effective ways their solution // Alternative Energy and Ecology. Saint Petersburg, 2007. N 11(55). P.108-117.
  2. Parshin A.M., Petkova A.P. Structure, radiation damage and deformation capacity of austenitic steels and alloys at low temperature neutron irradiation // Scientific andtechnical gazette of the Saint Petersburg State Polytechnic University. Saint Petersburg, 2003. N 3(33). P.77-91.
  3. Ganzulenko O.Y., Kirillov N.B, Petkova A.P., Yakovitskaya M.V. Increasing of austenitic corrosion-resistant chromium-nickel steels hydrogen resistance for hightechnology systems of power plants // Scientific and technical gazetteif the Saint-Petersburg State Polytechnic University. Saint Petersburg, 2012. N 3 (123). P.218-224.
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