Zobrazeno 1 - 8
of 8
pro vyhledávání: '"K. V. Naboichenko"'
Publikováno v:
Atomic Energy. 108:121-126
Recommendations for calculating the characteristics of irradiation-induced creep of mixed uraniumplutonium oxide fuel and uranium dioxide for programs analyzing fuel-element serviceability are developed on the basis a physical model of deformation. T
Publikováno v:
Atomic Energy. 108:15-20
Recommendations for calculating the characteristics of thermal creep of mixed uranium‐plutonium oxide fuel when analyzing the serviceability of fuel elements are developed on the basis of a physical model of deformation. The deformation processes i
Publikováno v:
Atomic Energy. 107:381-386
Recommendations for calculating the thermal creep properties of uranium dioxide for fuel element serviceability analysis programs are developed on the basis of a physical model. The deformation processes in the model include diffusion and diffusion-c
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
Publikováno v:
Strength of Materials. 13:906-910
1. A method was developed for studying the transient creep of ceramic fuels. 2. Equations were proposed for describing the time dependence of creep strain, and the effect of temperature, stress, and structural features of the material on the paramete
Publikováno v:
Soviet Atomic Energy. 42:6-11
Autor:
A. V. Zelenchuk, K. V. Naboichenko
Publikováno v:
Soviet Atomic Energy. 36:157-160
Publikováno v:
Strength of Materials. 4:302-305
1. In the temperature range 2450–2810°K and the stress range 0.35–1.75 kg/mm2, three stages of creep are observed, corresponding to transient, steady state, and accelerated creep, which are typical of metals. 2. The deformation of ZrC ends in br