Literature cited
Yu. V. Kornyushin, V. I. Trefilov, and S. A. Firstov, “The question of the influence of the dislocation structure on the conditions of crack advance,” Probl. Prochn., No. 9, 94–98 (1976).
A. N. Vergazov, V. A. Likhachev, and V. V. Rybin, “Characteristic elements of the dislocation structure in deformed polycrystalline molybdenum,” Fiz. Met. Metalloved.,42, No. 1, 146–154 (1976).
V. S. Ivanova and V. F. Terent'ev, The Nature of the Fatigue of Metals [in Russian], Metallurgiya, Moscow (1975).
S. Kotsan'da, The Fatigue Failure of Metals [in Russian], Metallurgiya, Moscow (1976).
Yu. A. Fedorov, O. I. Sysoev, and E. P. Zorin, “Conditions for the origin of a microcrack at a grain boundary,” Fiz. Met. Metalloved.,41, No. 5, 937–941 (1976).
M. N. Georgiev, V. Yu. Dogadushkin, and N. Ya. Mezhova, “Some features of the fracture of polycrystalline iron in a single loading,” Fiz. Met. Metalloved.,49, No. 1, 170–180 (1980).
V. N. Statkevich and V. G. Tkachenko, “The influence of structure on the characteristics of deformation and fracture of a molybdenum-carbon alloy,” Fiz. Met. Metalloved.,42, No. 6, 1247–1256 (1976).
G. R. Irwin, “Fracture mode transition for a crack transversing a plate,” Trans. ASME, Appl. Mech.,82, 417–425 (1960).
I. R. Rice, “Mechanics of crack deformation and extension by fatigue,” in: Fatigue Crack Propagation, ASTM STP 415 (1967), pp. 247–309.
V. M. Goritskii, V. S. Ivanova, and L. G. Orlov, “Features of the dislocation structure of Armco iron in the multicycle area of fatigue,” Fiz. Met. Metalloved.,35, No. 6, 1291–1298 (1973).
V. S. Ivanova, The Fatigue Failure of Metals [in Russian], Metallurgizdat, Moscow (1963).
T. Kanasawa, S. Machida, and K. Itoga, “On the effect of cyclic stress ratio on the fatigue crack propagation,” Eng. Fract. Mech.,7, No. 3, 445–455 (1975).
M. N. Georgiev, “A phenomenological plan of fatigue crack growth,” Fiz.-Khim. Mekh. Mater., No. 6, 37–42 (1979).
M. N. Georgiev, V. N. Danilov, N. Ya. Mezhova, V. N. Minaev, P. A. Rakhmanov, S. N. Roshchin, and Yu. E. Tyablikov, “The influence of temperature on the resistance to fatigue crack development in St.3sp, 18Gps, and 09G2S steels,” Probl. Prochn., No. 5, 45–50 (1978).
M. N. Georgiev, V. Yu. Dogadushkin, and V. N. Minaev, “Certain features of the failure of polycrystalline iron in cyclic loading,” Fiz. Met. Metalloved.,52, No. 4, 808–817 (1981).
L. S. Moroz, The Fine Structure and Strength of Steel [in Russian], Metallurgizdat, Moscow (1957).
S. S. Gorelik, L. N. Rastorguev, and Yu. A. Skakov, X-Ray Diffraction and Electron Microscopic Analysis of Metals [in Russian], Metallurgizdat, Moscow (1963).
M. N. Georgiev, N. Ya. Mezhova, L. P. Strok, and N. K. Shaurova, “The use of x-ray fractography for studying the rules of failure of metals,” Zavod. Lab., No. 8, 54–57 (1981).
V. S. Ivanova, V. M. Goritskii, L. G. Orlov, and V. F. Terent'ev, “The dislocation structure of iron at the tip of a fatigue crack,” Probl. Prochn., No. 11, 13–18 (1975).
J. Friedel, Dislocations, Addison-Wesley (1964).
V. A. Pavlov, “The influence of screw dislocations on the mechanical properties of metals with a body-centered cubic lattice,” Fiz. Met. Metalloved.,45, No. 4, 815–837 (1978).
V. M. Goritskii and V. F. Terent'ev, The Structure and Fatigue Failure of Metals [in Russian], Metallurgiya, Moscow (1980).
J. Friedel, “Work hardening and crack propagation,” in: The Atomic Mechanism of Fracture [in Russian], Metallurgizdat, Moscow (1963).
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Translated from Fiziko-Khimicheskaya Mekhanika Materialov, Vol. 18, No. 4, pp. 35–42, July–August, 1982.
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Georgiev, M.N., Dogadushkin, V.Y., Mezhova, N.Y. et al. Mechanism of fatigue crack propagation in metallic materials. Mater Sci 18, 319–325 (1983). https://doi.org/10.1007/BF00723331
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DOI: https://doi.org/10.1007/BF00723331