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Influence of metallurgical and technological heredity on the efficiency of inhibitor protection of steel

Conclusion

The use of inhibitor protection (taking metallurgical and technological heredity of steel into account) opens up broad possibilities of deliberately changing the quality of the surface layer, of producing optimal physical, mechanical, and electrochemical properties of the metal; this is particularly important when steel components operate in aggressive media.

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Literature cited

  1. 1.

    G. V. Karpenko, Yu. I. Babei, I. V. Karpenko, and É. M. Gutman, Work-Hardening of Steel by Machining [in Russian], Naukova Dumka, Kiev (1966).

  2. 2.

    A. A. Matalin, Technological Methods of Increasing the Life of Machine Parts [in Russian], Tekhnika, Kiev (1971).

  3. 3.

    A. V. Ryabchenkov, Corrosion-Fatigue Strength of Steel [in Russian], Mashgiz, Moscow (1953).

  4. 4.

    P. I. Yashcheritsyn, É. V. Ryzhov, and V. I. Averchenkov, Technological Heredity in Engineering [in Russian], Nauka i Tekhnika, Minsk (1977).

  5. 5.

    Yu. A. Klyachko and O. D. Lartina, “New method of determining gases in metals,” Zavod. Lab.,26, No. 9, 1047–1051 (1960).

  6. 6.

    Yu. I. Babei, V. G. Starchak, Yu. A. Klyachko, and A. A. Berlin, “Evaluation of the effectiveness of corrosion inhibitors,” Zashch. Met.,12, No. 3, 332–333 (1976).

  7. 7.

    Yu. A. Klyachko, V. G. Starchak, and A. B. Kuslitskii, “The metallurgical possibilities of increasing the structural strength of steel operating in aggressive hydrogen containing media,” in: Increasing the Structural Strength of Steels and Alloys [in Russian], MDNTP (1970), pp. 124–125.

  8. 8.

    V. G. Starchak, “The effect of nonmetallic inclusion on the hydrogen embrittlement of steel,” in: Hydrogenation of Metals and Control of Hydrogen Brittleness [in Russian], Znanie, Moscow (1973), pp. 107–114.

  9. 9.

    G. V. Karpenko, I. P. Pistun, A. B. Kuslitskii, and I. E. Zamostyanik, “The effect of machining on the low-cycle endurance of steels in a corrosive medium,” Fiz.-Khim. Mekh. Mater.,11, No. 4, 102–104 (1975).

  10. 10.

    I. P. Pistun and A. B. Kuslitskii, “The effect of the quality of the surface layer on the low-cycle endurance of structural steels inworking media,” Probl. Prochn., No. 9, 58–59 (1977).

  11. 11.

    V. G. Starchak, P. A. Rudenko, N. M. Lysenko, and A. G. Dolodarenko, “The effect of technological heredity on the behavior of steel in hydrogenating and corrosive hydrogenating media,” in: Methods of Investigating and of Determining Gases in Metals and Inorganic Materials [in Russian], Nauka, Leningrad (1979), p. 174.

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Additional information

Chernigov Brach of the Kiev Polytechnic Institute. Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 2, pp. 37–41, February, 1984.

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Starchak, V.G. Influence of metallurgical and technological heredity on the efficiency of inhibitor protection of steel. Met Sci Heat Treat 26, 140–145 (1984). https://doi.org/10.1007/BF00707164

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Keywords

  • Surface Layer
  • Electrochemical Property
  • Aggressive Medium
  • Steel Component
  • Broad Possibility