This is a preview of subscription content, log in via an institution to check access.
Literature cited
A. Troiano, Trans. Am. Soc. Met., No. 52, 54 (1960).
G. V. Karpenko and R. I. Kripyakevich, The Influence of Hydrogen on the Properties of Steel [in Russian], Metallurgizdat, Moscow (1962), p. 174.
K. Mac Mahon, K. Bryant, and S. Banerjee, "The influence of hydrogen and impurities on the brittle fracture of steel", in: Fracture Mechanics. The Fracture of Materials [Russian translation], No. 17, Mir, Moscow (1979), p. 117.
V. I. Sarrak, "Retarded fracture, hydrogen, and impurities in steel", Metalloved. Term. Obrab. Met., No. 8, 17 (1977).
A. P. Gulyaev, Physical Metallurgy [in Russian], Metallurgiya, Moscow (1977), p. 367.
V. P. Koval', M. G. Khitarishvili, and P. S. Asadtsev, "The question of accelerated tests of steel for the tendency toward hydrogen sulfide cracking", Fiz.-Khim. Mekh. Mater., No. 2, 113 (1974).
V. N. Zikeev, "Modern constructional steels for machine building", Metalloved. Term. Obrab. Met., No. 4, 5 (1972).
E. B. Serebryanaya et al., "Features of alloying of heat-treatable 20KhM constructional steel," in: The Design and Construction of Piping and Gas and Petroleum Field Structures [in Russian], No. 4, Informneftegazstroi (1978), p. 37.
V. N. Zikeev and L. V. Popova, "Increasing the toughness properties of heat treatable chrome-nickel-molybdenum steel by modification with nitride phase", in: High Quality Steels and Alloys [in Russian], No. 1, Metallurgiya, Moscow (1976), p. 36.
S. A. Golovanenko et al., "The influence of chromium and molybdenum on the resistance to hydrogen embrittlement of 20KhM hardenable constructional steel", in: High Quality Steels and Alloys [in Russian], No. 3, Metallurgiya, Moscow (1978), p. 76.
B. M. Mogutnov, I. A. Tomilin, and L. A. Shvartsman, The Thermodynamics of Iron-Carbon Alloys [in Russian], Metallurgiya, Moscow (1972), p. 327.
G. Liebowitz, The Solid State Chemistry of Binary Metal Hydrides, No. 6, 11 (1965).
V. N. Zikeev et al., "An investigation of the properties and resistance to hydrogen sulfide cracking of heat treated NKM-114 pump and compressor pipe of 18Kh1G1MF steel," in: Corrosion and Protection in the Petroleum and Gas Industry [in Russian], No. 1, Vses. Nauch.-Issled. Inst. Org. Uprav. Ékon. Neftegaz. Promysh. (1981), p. 2.
A. P. Gulyaev, Yu. S. Golovanenko, and V. N. Zikeev, "The influence of the quantity of nonmartensitic transformation products on the resistance to fracture of hardenable constructional steel", Metalloved. Term. Obrab. Met., No. 7, 60 (1978).
M. Middita, J. Iron Steel Inst. Jpn.43, No. 2, 133 (1957).
S. A. Golovanenko et al., "The relationship between the tendency toward hydrogen sulfide embrittlement and the combination of mechanical properties of 09G2 steel with different variations of alloying", Probl. Prochn., No. 10, 57 (1978).
S. A. Golovanenko and V. N. Zikeev, Khutnike Listi [Russian translation], No. 6, 404 (1979).
S. A. Golovanenko et al., "The properties and capacity for hydrogen absorption of steels with different antimony contents," in: Corrosion and Protection in the Petroleum and Gas Industry [in Russian], No. 3, Vses. Nauch.-Issled. Inst. Org. Uprav. Ékon. Neftegaz. Promysh. (1979), p. 6.
Additional information
I. P. Bardin Central Scientific-Research Institute for Ferrous Metallurgy. Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 5, pp. 18–23, May, 1982.
Rights and permissions
About this article
Cite this article
Zikeev, V.N. Alloying and the structure of constructional steels resistant to hydrogen embrittlement. Met Sci Heat Treat 24, 320–326 (1982). https://doi.org/10.1007/BF00782803
Issue Date:
DOI: https://doi.org/10.1007/BF00782803