Literature Cited
A. V. Prokopenko and V. N. Torgov, “A method testing compressor blades of gas turbine engines for fatigue in a corrosive medium”, Probl. Prochn., No. 4, 107–109 (1980).
G. R. Irwin and P. C. Paris, “Fundamentals of the theory of crack growth and fracture”, in: Fracture [Russian translation], Vol. 3, Mir, Moscow (1976), pp. 17–66.
W. F. Brown and J. Srawley, “Fracture toughness testing of high strength metallic materials in plane strain”, ASTM, Philadelphia, Pa.
Strength Calculations in Engineering; Methods of Mechanical Testing of Metals; Determination of Crack Propagation Resistance (Cracking Resistance) Characteristics in Cyclic Loading; Procedure Instructions [in Russian], National Standards Committee of the USSR, Physicomechanical Institute, Lvov (1979).
V. T. Troshchenko, A. V. Prokopenko, and V. N. Torgov, “Effect of the sea water solution on the fatigue crack propagation rate in corrosion-resisting steels and VT3-1 alloy”, Probl. Prochn., No. 4, 69–73 (1981).
O. A. Adetifa, G. V. B. Gowda, and T. H. Topper, “A model for fatigue crack growth delay under two-level block loads”, in: Fatigue Crack Growth under Spectrum Loads, ASTM STP No. 595, Philadelphia (1976), pp. 142–156.
Additional information
Institute of Strength Problems, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Problemy Prochnosti, No. 5, pp. 37–41, May, 1984.
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Prokopenko, A.V. A method of testing and results of examining the cracking resistance of 15Kh12N2VMF steel in alternating cyclic and long-term static loading in a corrosive medium. Strength Mater 16, 651–656 (1984). https://doi.org/10.1007/BF01529045
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DOI: https://doi.org/10.1007/BF01529045