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Literature cited
V. P. Kogaev, N. A. Makhutov, and A. P. Gusenkov, Calculations of the Strength and Life of Machine Components in Structures (Handbook) [in Russian], Mashinostroenie, Moscow (1985).
V. V. Panasyuk (ed.), Fracture Mechanics and Strength of Materials (Handbook in Four Volumes) [in Russian], Naukova Dumka, Kiev (1988).
R. V. Hertzberg, Deformation and Fracture Mechanics of Structural Materials [Russian translation], Edited by M. L. Bernshtein and S. P. Efimenko, Metallurgiya, Moscow (1989).
Yu. G. Matvienko and A. M. Sokovikov, “Fracture. Cracking resistance,” in: Physical Metallurgy and Heat Treatment (Itogi Nauki Tekh. VINITI AN SSSR), VINITI, Moscow (1988), pp. 3–40.
M. N. James, C. Dimitrion, and H. D. Chandler, “Low-cycle fatigue lives of notched components,” Fat. Fract. Eng. Mater. Struct.,12, No. 3, 213–225 (1989).
V. V. Panasyuk, O. P. Ostash, and E. M. Kostyk, “Fatigue crack initiation at stress raiser,” Fiz.-Khim. Mekh. Mater., No. 6, 3–10 (1985).
A. A. Popov and V. I. Artem'ev, “Determination of period of initiation of a fatigue crack at stress raisers,” Fiz.-Khim. Mekh. Mater., No. 6, 52–55 (1986).
V. V. Panasyuk, G. S. Ivanitskaya, O. P. Ostash, et al., “Using theδ c -model for evaluating the fatigue crack initiation period,” Fiz.-Khim. Mekh. Mater., No. 1, 55–61 (1987).
P. Heuler and T. Seeger, “Notch simulation concepts for the evaluation of crack initiation lives of service loaded components,” in: Fatigue-84, Proc. 2nd Int. Conf. Fatigue Thresholds, Vol. 3, Birmingham (1984), pp. 1741–1752.
Yu. G. Matvienko, “Damage and synergic representations in fracture mechanics problems,” Fiz.-Khim. Mekh. Mater., No. 1, 31–37 (1990).
G. M. Khazhinskii, “Using fracture mechanics for analysis of the fatigue resistance of smooth and notched specimens,” in: Strength Calculations, No. 24, Mashinostroenie, Moscow (1983), pp. 41–53.
R. P. Skelton (ed.), Fatigue of Materials at High Temperatures [in Russian], Metallurgiya, Moscow (1988).
G. M. Khazhinskii, “Relationship between the Paris and Manson-Coffin equations,” in: Problems of Failure of Metals and Fractography [in Russian], Moscow House of Scientific and Technical Propaganda, Moscow (1989), pp. 129–137.
G. Glinka, W. Ott, and H. Nowack, “Elastoplastic plane strain analysis of stresses and strains at the notch root,” Trans. ASME: J. Eng. Mater. Technol,110, No. 3, 195–204 (1988).
J. W. Hutchinson, “Singular behaviour of the end of a tensile crack in hardening materials,” J. Mech. Phys. Solids,16, No. 1, 13–31 (1968).
J. R. Rice and G. F. Rosengren, “Plane strain deformation near a crack tip in a power-law hardening materials,” J. Mech. Phys. Solids,16, No. 1, 1–12 (1968).
V. V. Panasyuk, O. P. Ostash, and E. M. Kostyk, “Relationship of the characteristics of cyclic cracking resistance of materials in crack initiation and growth stages,” Fiz.-Khim. Mekh. Mater., No. 6, 46–52 (1986).
E. M. Morozov and Yu. G. Matvienko, “Calculating the energy integral for bodies with cut out and cracks in elasto-plastic deformation,” Tr. Tsentr. Konstr. Tekhnol. Inst.,246, 67–73 (1988).
T. Udoguchi and P. Nozue, “Notch effect in low-cycle fatigue,” Bull. JSME.,18, No. 126, 1355–1364 (1975).
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Translated from Fiziko-Khimicheskaya Mekhanika Materialov, Vol. 26, No. 6, pp. 75–80, November–December, 1990.
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Matvienko, Y.G. Analysis of crack initiation conditions in low-cycle fatigue at a stress raiser. Mater Sci 26, 678–682 (1991). https://doi.org/10.1007/BF00723656
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DOI: https://doi.org/10.1007/BF00723656