Literature cited
A. E. Kissil', E. M. Lyutyi, A. G. Arakelov, G. G. Maksimovich, L. P. Onisenko, and O. S. Tsvikilevich, “The influence of long, high-temperature aging on the creep of Nb-Zr-C alloy in vacuum,” Fiz.-Khim. Mekh. Mater., No. 1, 59–64 (1978).
Yu. N. Rabotnov and S. T. Mileiko, Short-Time Creep [in Russian], Nauka, Moscow (1970).
F. Garofalo, “An empirical relation defining stress dependence of minimum creep rate in metals,” Trans. AIME,227, No. 2, 351–365 (1963).
R. Cahn, Physical Metallurgy, Wiley-Interscience (1965).
A. A. Yudin, “Generalization of the similarity of creep and its consequences,” Fiz. Met. Metalloved.,41, No. 3, 509–516 (1976).
V. V. Moskvitin, The Resistance of Viscoelastic Materials [in Russian], Nauka, Moscow (1972).
A Collection: Diffusion in Metals with a Body-Centered Lattice [in Russian], Metallurgiya, Moscow (1969).
F. Garofalo, The Rules of Creep and the Stress-Rupture Strength of Metals [in Russian], Metallurgiya, Moscow (1968).
H. E. McCoy, “Creep properties of the Nb-1% Zr alloys,” J. Less-Common Metals,8, No. 1, 20–31 (1965).
Mahendra Malu and John K. Tien, “A theory for steady state creep based on the motion of interstitial type jogs,” Acta Met.,22, No. 2, 145–160 (1974).
A. E. Kissil', E. M. Lyutyi, P. A. Khandarov, A. G. Arakelov, L. P. Onisenko, and O. S. Tsvikilevich, “The influence of high-temperature aging on the creep of 5VMTs alloy,” Probl. Prochn., No. 5, 40–43 (1979).
G. G. Maksimovich, Micromechanical Investigations of the Properties of Metals and Alloys [in Russian], Naukova Dumka, Kiev (1974).
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Translated from Fiziko-Khimicheskaya Mekhanika Materialov, Vol. 17, No. 5, pp. 16–20, September–October, 1981.
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Kissil', A.E., Lyutyi, E.M., Tsvikilevich, O.S. et al. High-temperature creep of NTsUVI alloy in vacuum. Mater Sci 17, 399–402 (1982). https://doi.org/10.1007/BF00722459
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DOI: https://doi.org/10.1007/BF00722459