Zobrazeno 1 - 7
of 7
pro vyhledávání: '"E. M. Minaev"'
Autor:
E. M. Minaev, Yu. V. Miloserdin, N. I. Arlamenkov, T. S. Men'shikova, I. S. Golovnin, K. G. Bobkov, P. A. Mandryka, A. N. Bogatov, L. S. Podval'nyi, K. V. Naboichenko, Yu. K. Bibilashvili
Publikováno v:
Soviet Atomic Energy. 35:1065-1069
1. We have presented some experimental results relating to the creep of polycrystalline sintered UO2 over the temperature range 1600–1900°K for stresses of 0.4–4 kg/mm2. 2. The deformation of the UO2 samples during the tests leads to the formati
Autor:
E. M. Minaev
Publikováno v:
Soviet Powder Metallurgy and Metal Ceramics. 28:859-862
Publikováno v:
Soviet Powder Metallurgy and Metal Ceramics. 8:259-264
1. A procedure has been worked out for the preparation of iron-nickel powders by dissociation of mixed carbonyls in a free heated space of a decomposer. 2. It has been shown that the carbonyl iron-nickel powders thus produced are contaminated with so
Autor:
E. M. Minaev, G. I. Aksenov
Publikováno v:
Soviet Powder Metallurgy and Metal Ceramics. 4:241-244
A method for testing cermet materials by means of unique annular specimens, specified by GOST 6551-53, has been developed and is successfully used at the powder metallurgy laboratory of the Kuibyshev Institute of Aviation. These specimens can be used
Publikováno v:
Soviet Powder Metallurgy and Metal Ceramics. 1:160-164
1. We have proposed a new method for preparing specimens for the microstructural investigation of individual particles of the powder; this method can be used to study the dimensions, form, and structure of particles in a state close to the initial st
Autor:
E. M. Minaev
Publikováno v:
Soviet Powder Metallurgy and Metal Ceramics. 25:188-190
Autor:
T. I. Mryakina, E. M. Minaev
Publikováno v:
Soviet Powder Metallurgy and Metal Ceramics. 7:83-85
1. Alloyed powders can be produced by low-temperature reduction of a complex oxide in hydrogen. The “activity” of the sintered powder is higher in this case than when high-temperature reduction is employed. 2. Sintering of alloyed powders leads t