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I. P. Bulygin, N. B. Nekrasov, V. A. Zhabina, et al., “The influence of the purity of a medium on the stress-rupture strength and creep of refractory compounds,” Probl. Prochn., No. 5, 38–42 (1970).
I. S. Tsvilyuk, O. I. Marusii, and E. N. Kaspruk, “The rules of the change in characteristics of stress-rupture strength of niobium alloys in vacuums of different degree,” Fiz.-Khim. Mekh. Mater., No. 6, 19–21 (1978).
N. P. Drozd, Yu. V. Mil'man, N. M. Sinchenko, and O. I. Eliseeva, “Structural changes in low-alloy molybdenum under the action of high temperatures and along loads in various media,” Fiz.-Khim. Mekh. Mater., No. 1, 58–61 (1981).
T. K. Roche, “The influence of vacuum in the creep of Nb-Zr alloy at a temperature of 1000°C,” in: Refractory Metals in New Technology [Russian translation], Mir, Moscow (1969), pp. 42–58.
É. A. Abramyan, L. I. Ivanov, and E. E. Kazilin, “The high-temperature creep of Nb-1% Zr alloy in a rarefied flow of oxygen,” Izv. Akad. Nauk SSSR, Metally, No. 1, 170–172 (1977).
G. G. Maksimovich, E. M. Lyutyi, S. M. Kudlak, V. S. Baranetskii, and O. I. Eliseeva, “A unit for testing materials in controlled rarefied gaseous flows at increased temperatures,” in: The Properties of Constructional Materials under the Action of Working Media [in Russian], Naukova Dumka, Kiev (1980), pp. 307–313.
G. Hörz and E. Gebhardt, “Sauerstoffaufnahme von V, Nb, Ta bei hohen Temperaturen und niedriegen Drücken,” Werkstoff und Korrosion,21, No. 12, 997–1002 (1970).
S. Z. Bokshtein, Diffusion and the Structure of Metals [in Russian], Metallurgiya, Moscow (1973).
A. Taylor and N. J. Doyle, “The solid-solubility of oxygen in Nb and Nb-rich, Nb-Hf, Nb-Mo, and Nb-W alloys,” J. Less-Common Metals,13, No. 3, 331–351 (1967).
C. T. Lie, “Effect of oxygen absorption on lattice parameter and specimen dilation in a tantalum-base alloy containing 8 pct. tungsten and 2 pct. hafnium,” Met. Trans.,9A, 973–978 (1978).
C. T. Lie, H. Inoye, and R. W. Carpenter, “A simple method of determination of the distribution and solubility limit of interstitials in substitutional solid solutions,” J. Less-Common Metals,25, 123–129 (1971).
G. A. Vedenyapin, Yu. A. Dushin, L. I. Emel'yanova, et al., “The condition of oxygen in different stages of internal oxidation of Nb-1% Zr alloy,” Fiz. Met. Metalloved., No. 5, 972–979 (1979).
Translated from Fiziko-Khimicheskaya Mekhanika Materialov, Vol. 19, No. 6, pp. 22–27, November–December, 1983.
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Eliseeva, O.I. Features of the high-temperature deformation and structural state of SB-1 alloy under creep conditions in a rarefied flow of oxygen. Mater Sci 19, 500–505 (1984). https://doi.org/10.1007/BF00722114
- Structural State
- Creep Condition