Zobrazeno 1 - 6
of 6
pro vyhledávání: '"J. V. Eremeeva"'
Autor:
J. V. Eremeeva, A. S. Akhmetov
Publikováno v:
Metallurgist. 65:314-319
We consider actual problems of production, transportation, and storage of hydrogen and demonstrate the urgency and prospects of subsequent investigations and introduction of hydrogen-based technologies in powder metallurgy. We present predictions of
Publikováno v:
Inorganic Materials: Applied Research. 9:291-296
Crystalline nanopowders of dysprosium titanate were prepared by the mechanochemical synthesis method using anatase and dysprosium oxide as the initial reagents. The duration of the mechanochemical treatment was 180 min. The crystal structure of mecha
Autor:
E. V. Morozova, Jsc Graviton, V. Yu. Lopatin, Nust Misis, J. V. Eremeeva, A. A. Gofman, D. Yu. Kovalev, Stepan Vorotilo, A. A. Gunya
Publikováno v:
Perspektivnye Materialy. :28-35
Autor:
D. Yu. Mishunin, E. V. Apostolova, J. V. Eremeeva, V. S. Panov, D. A. Sidorenko, V. Y. Lopatin, A. V. Lizunov, E. V. Ageev, O. V. Myakisheva, A. A. Nepapushev
Publikováno v:
Proceedings of the Southwest State University. 21:41-58
Mechanochemical and SHS methods are up-and-coming ways to produce finely dispersed boron carbide nano powder. With optimal process conditions the synthesized phases have ultra dispersed state with well-developed surfaces of the boundaries of grains a
Autor:
E. V. Ageev, A. I. Lizunov, T. M. Aldayarov, O. V. Myakisheva, J. V. Eremeeva, V. Y. Lopatin, V. S. Panov
Publikováno v:
Proceedings of the Southwest State University. 21:48-59
Today there are numerous research works meant to improve nuclear fuel element performance in order to ensure reliable operation under increased burn-up conditions. In this context the pellet microstructure seems to be a very important parameter. An i
Autor:
J. V. Eremeeva, G. V. Miheev, R. A. Scoricov, U. S. Ter-Vaganyants, V. S. Panov, G. H. Sharipzyanova
Publikováno v:
Inorganic Materials: Applied Research. 7:251-260
The influence of the mixing method and nature of the administered nanoparticles on the mechanical properties of powder steels is considered. The dependences of hardness and tensile strength under three-point bending on the concentration of nanosized