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Study of Corrosion Behavior of Coatings Produced on Steel with Electrospark Alloying Using a Hand High-Frequency Vibrator

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Abstract

The comparative corrosion resistance in acidic, alkaline, and neutral environments of pure metals (steel, nickel, titanium) and of nickel and titanium coatings produced on steel using electrospark alloying with a high-frequency vibrator is investigated. It is established that the phase structure, roughness, and porosity of received coatings depend on the electrode material and on the modes of coating application that affect the corrosion behavior. A positive influence of the high-frequency alloying with nickel and titanium on an increase in the corrosion resistance of the steel surface is shown.

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REFERENCES

  1. Lazarenko, B.R. and Lazarenko, N.I., Elektroiskrovaya eroziya metallov (Electrospark Erosion of Metals), Moscow–Leningrad: Gosenergoizdat, 1944, vol. 1.

  2. Lazarenko, N.I., Change in the initial properties of the cathode surface under spark electrical pulses in a gaseous medium, in Elektroiskrovaya obrabotka metallov (Electrospark Processing of Metals), Moscow: Izd. Akad. Nauk SSSR, 1957, vol. 1, pp. 70–94.

  3. Lazarenko, N.I., Technological process of changing the initial properties of metal surfaces by electrical pulses, in Elektroiskrovaya obrabotka metallov (Electrospark Processing of Metals), Moscow: Izd. Akad. Nauk SSSR, 1960, vol. 2, pp. 36–66.

  4. Lazarenko, N.I., On the mechanism of coating formation during electrospark alloying of metal surfaces, Elektron. Obrab. Mater., 1965, no. 1, p. 49.

  5. Bakuto, I.A. and Mitskevich, M.K., On the factors affecting the formation of coatings in the electrospark processing method, Elektron. Obrab. Mater., 1977, no. 3, p. 17.

  6. Verkhoturov, A.D., Formirovanie poverkhnostnogo sloya metallov pri elektroiskrovom legirovanii (Formation of the Surface Layer of Metals during Electrospark Alloying), Vladivostok: Dal’nauka, 1995.

  7. Chernoivanov, V.I., Status and prospects for the use of electrospark technologies in the repair industry, Trudy GOSNITI, 2010, vol. 106, p. 19.

    Google Scholar 

  8. Burumkulov, F.A., Lezin, P.P., Senin, P.V., Ivanov, V.I., et al., Elektroiskrovye tekhnologii vosstanovleniya i uprochneniya detalei mashin i instrumenta (Electrospark Technologies for the Restoration and Hardening of Machine Parts and Tools), Saransk: Krasnyi Oktyabr’, 2003.

  9. Paramonov, A.M., Parshutin, V.V., Koval’, A.V., and Ivanov, V.I., New practical application of the results of research on electrospark alloying, Trudy GOSNITI, 2008, vol. 102, p. 112.

    Google Scholar 

  10. Tomashov, N.D. and Chernova, G.P., Teoriya korrozii i korrozionnostoikie konstruktsionnye splavy (Theory of Corrosion and Corrosion-Resistant Structural Alloys), Moscow: Metallurgiya, 1993.

  11. Tödt, F., Korrosion und Korrosionsschutz, Berlin: De Gruyter, 1961.

    Book  Google Scholar 

  12. Chernova, G.P., Tomashov, N.D., Fedoseeva, T.A., German, A.N., et al., Improving the corrosion resistance of alloys by applying coatings to them by electrospark alloying, Elektron. Obrab. Mater., 1977, no. 4, p. 42.

  13. Reshetnikov, S.M. and Vdovin, S.F., Application of the electrospark metallization method to improve the corrosion resistance of unalloyed steel, Elektron. Obrab. Mater., 1977, no. 3, p. 33.

  14. Vdovin, S.F., Makhnev, E.S., Mineeva, N.L., Tarasov, V.V., et al., Protection against atmospheric corrosion by electrospark alloying, Elektron. Obrab. Mater., 1988, no. 6, p. 15.

  15. Lyubchik, M.Ya. and Fursov, S.P., Tests of a thyristor generator during electric spark processing of metals in air, Elektron. Obrab. Mater., 1970, no. 4, p. 77.

  16. Khabibullina, N.V. and Pleshkova, E.P., Electrospark alloying of medical instruments, Elektron. Obrab. Mater., 1977, no. 3, p. 37.

  17. Khabibullina, N.V., Fursov, S.P., Zapparova, Z.A., Paramonov, A.M., et al., The use of fine alloying plants to improve the quality of medical instruments, Elektron. Obrab. Mater., 1982, no. 1, p. 89.

  18. Fursov, S.P., Paramonov, A.M., Dobynda, I.V., and Semenchuk, A.V., Istochniki pitaniya dlya elektroiskrovogo legirovaniya (Power Supplies for Electrospark Alloying), Chisinau: Shtiintsa, 1983.

  19. Paramonov, A.M., Safronov, I.I., Semenchuk, A.V., and Tsurkan, I.V., Investigation of the prospects for the use of vibration-free electrospark alloying, Elektron. Obrab. Mater., 1997, nos. 5–6, p. 28.

  20. Paramonov, A.M. and Koval’, A.V., New potentials of the electrospark alloying method for prolonging the service life of cutting tools, Surf. Eng. Appl. Electrochem., 2008, vol. 44, pp. 87–91.

    Article  Google Scholar 

  21. Paramonov, A.M., Paramonov, D.A., Koval’, A.V., and Agafii, V.I., The method of anti-corrosion treatment of steel, Patent RM no. 561, BOPI no. 11/2012, 2012.

  22. Paramonov, A.M. and Koval’, A.V., Development of power supplies for electrospark alloying with manual vibrating electrode, Elektron. Obrab. Mater., 2020, no. 1, p. 67.

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  1. Institute of Applied Physics, MD–2028, Chisinau, Republic of Moldova

    A. V. Koval’

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  1. A. V. Koval’
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Translated by M. Myshkina

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Koval’, A.V. Study of Corrosion Behavior of Coatings Produced on Steel with Electrospark Alloying Using a Hand High-Frequency Vibrator. Surf. Engin. Appl.Electrochem. 58, 176–183 (2022). https://doi.org/10.3103/S1068375522020041

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