Literature Cited
E. C. Hartman and G. W. Stickley, “The direct stress fatigue strength of 17S-T aluminum alloy throughout the range from 1/2 to 100,000,000 cycles,” Techn. Note NACA, No. 865, 48–56 (1942).
S. S. Manson, I. Nachtigall, and I. C. Freche, “A proposed new relation for cumulative fatigue damage in bending,” Proc. Am. Soc. Test. Mater., Spec. Tech. Publ.,51, 315–336 (1951).
L. F. Coffin Jr. and I. Tavernelli, “The cyclic straining and fatigue of metals,” Trans. ASME,215, 931–950 (1959).
S. V. Serensen and V. M. Filatov, “Damage during low-cycle nonsteady loading,” Mashinovedenie, No. 6, 58–71 (1967).
M. A. Daunis and R. A. Stasyunas, “Study of damage accumulation during nonsteady low-cycle stresscontrolled loading,” Probl. Prochn., No. 11, 14–21 (1976).
M. Kikukawa, M. Iono, T. Kamata, et al., “Low-cycle fatigue under varying strain conditions (effect of mean strain and stress),” Trans. ASME,42, No. 358, 1625–1632 (1976).
V. V. Larionov, “Experimental verification of strain criteria in the low-cycle fracture of welds,” Probl. Prochn., No. 4, 35–39 (1977).
N. D. Sobolev, V. I. Egorov, and V. M. Markochev, “Experimental study of low-cycle fatigue under nonisothermal and isothermal conditions,” in: Summary of Documents of the Seventh All-Union Conference on Metal Fatigue, November 23–25, 1977, Nauka, Moscow (1977), pp. 65–66.
V. A. Strizhalo, Fatigue Strength and Creep of Metals Under Low-Cycle Loading at Low and High Temperatures [in Russian], Naukova Dumka, Kiev (1978).
A. N. Romanov, A. A. Chizhik, V. G. Lyuttsau, and V. I. Ivanov, “Evaluating the accumulation of low-cycle damages in structures and monitoring their condition,” in: Materials of the Third All-Union Symposium on the Low-Cycle Fatigue of Structural Elements, Summary of Documents, Palanga, September 15–16, 1979, Nauka, Moscow (1979), pp. 53–55.
S. V. Serensen and R. M. Shneiderovich, “Criteria of the load-carrying capacity of parts with a small number of loading cycles,” Mashinovedenie, No. 2, 70–78 (1965).
V. V. Novozhilov and O. G. Rybakina, “Prospects for constructing strength criteria under complex loading,” Izv. Akad. Nauk SSSR, Mekh. Tverd. Tela, No. 5, 101–111 (1966).
T. Biu-Quock, “Cycle stress, strain, and energy variations under cumulative fatigue,” J. Test. Eval.,1, 58–64 (1973).
A. G. Kostyuk, A. D. Trukhnii, and V. N. Michulin, “Criteria of the strength of materials in low-cycle fatigue with a complex stress state,” Mashinovedenie, No. 5, 62–67 (1974).
N. A. Makhutov, Strain Criteria of Fracture and the Strength Design of Structural Elements [in Russian], Mashinostroenie, Moscow (1981).
V. T. Troschchenko, D. P. Sinyavskii, and A. P. Gopkalo, “On criteria of the fracture of metals during nonisothermal loading. Reports 1 and 2,” Probl. Prochn., No. 12, 3–14 (1981).
V. P. Kogaev and A. P. Gusenkov, “Strain interpretation of cumulative fatigue damage during irregular low- and high-cycle loading with overloads,” Mashinovedenie, No. 5, 57–64 (1978).
I. A. Birger, “Deterministic and statistical models of damage summation,” Probl. Prochn., No. 11, 3–12 (1978).
D. A. Gokhfel'd, V. P. Kolpakov, K. M. Kononov, et al., “Evaluating durability during nonisothermal cyclic loading,” Probl. Prochn., No. 7, 18–22 (1981).
V. I. Dobrovol'skii, “Theory of similitude of low-cycle fatigue fracture,” Probl. Prochn., No. 6, 12–17 (1981).
V. I. Dobrovol'skii, “Unit for fatigue tests of specimens in pure bending,” Inventor's Certificate No. 513297, Byull. Izobret., No. 17 (1976).
V. I. Dobrovol'skii, “Unit for low-cycle fatigue tests of specimens in pure bending,” Inventor's Certificate No. 697875, Byull. Izobret., No. 42 (1979).
V. I. Dobrovol'skii and V. V. Pryakhin, “Method of strain measurement during bending,” Inventor's Certificate No. 911129, Byull. Izobret., No. 9 (1982).
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Izhevsk Institute of Mechanics. Translated from Problemy Prochnosti, No. 9, pp. 24–28, September, 1984.
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Dobrovol'skii, V.I. Experimental study of fatigue damage accumulation during low-cycle nonsteady deformation. Strength Mater 16, 1240–1244 (1984). https://doi.org/10.1007/BF01529996
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DOI: https://doi.org/10.1007/BF01529996