Russian Metallurgy (Metally)

, Volume 2019, Issue 13, pp 1421–1426 | Cite as

Technological Methods for Increasing the Life of Machine Components

  • Yu. A. Kuznetsov
  • I. N. Kravchenko
  • A. A. SevryukovEmail author
  • M. A. Glinskii


A combined technology is developed to increase the service life of machine components. It combines the advantages of “cold” gas-dynamic (supersonic) spraying and plasma electrolytic oxidation and can be used to deposit high-quality coatings onto tractor parts. The interaction of particles with a surface during gasdynamic spraying is theoretically estimated, and rational spraying conditions are chosen. The service properties of the deposited coatings are experimentally studied.


gas-dynamic spraying plasma electrolytic oxidation powder coating particle electrolyte wear resistance 



  1. 1.
    Yu. A. Kuznetsov, V. V. Goncharenko, and K. V. Kulakov, Innovative Methods of Gas-Thermal Coating Deposition (Izd. Orel GAU, Orel, 2011).Google Scholar
  2. 2.
    A. F. Puzryakov, I. N. Kravchenko, A. V. Kolomeichenko, A. S. Osipkov, and A. A. Puzryakov, “New approaches to increasing the life of machine components by gas-thermal deposition of nanostructured materials,” Remont. Vosstanovlenie. Modernizatsiya, No. 6, 32–35 (2014).Google Scholar
  3. 3.
    I. N. Kravchenko, V. M. Korneev, A. A. Kolomeichenko, and I. E. Pupavtsev, “Effective technological methods of coating deposition by gas-flame spraying,” Vestn. FGOU VPO Mosk. Gos. Agro. Univ., No. 1 (65), 36–41 (2015).Google Scholar
  4. 4.
    I. N. Kravchenko, A. F. Puzryakov, V. M. Korneev, et al., Technological Processes in Technical Service of Machines and Equipment (INAFRA-M, Moscow, 2017).Google Scholar
  5. 5.
    V. M. Korneev, I. N. Kravchenko, A. G. Gamidov, and D. I. Petrovskii, Technology of Machine Repair (OOO Megapolis, Moscow, 2018).Google Scholar
  6. 6.
    V. V. Tikhonenko and A. M. Shkil’ko, “Microarc oxidation,” Vost.-Evrop. Zh. Pered. Tekhn. 2 (13 (56)), 13–18 (2012).Google Scholar
  7. 7.
    Yu. A. Kuznetsov, I. N. Kravchenko, V. V. Goncharenko, and M. A. Glinskii, “Mechanical treatment of ceramic oxide coatings deposited by plasma electrolytic oxidation,” Tekhn. Metallov, No. 10, 18–24 (2017).Google Scholar
  8. 8.
    A. V. Epel’fel’d, P. N. Belkin, A. M. Borisov, V. A. Vasin, B. L. Krit, V. B. Lyudin, O. V. Somov, V. A. Sorokin, I. V. Suminov, and V. P. Frantskevich, Modern Technologies of Surface Modification and the Deposition of Protective Coatings. Vol. 1. Microarc Oxidation (Renome, St. Petersburg, 2017).Google Scholar
  9. 9.
    A. Kosenko, A. V. Kolomeichenko, Yu. A. Kuznetsov, N. V. Titov, R. Yu. Solovyev, and S. N. Sharifullin, “Investigation of coating thickness obtained by plasma electrolytic oxidation on aluminium alloys in electrolytes of type “KOH–H3BO3,” J. Phys.: Conf. Ser. 1058, 012065 (2018).Google Scholar
  10. 10.
    Yu. A. Kuznetsov, I. N. Kravchenko, V. V. Goncharenko, and M. A. Glinskii, “Machining of the ceramic oxide coating formed by plasma electrolytic oxidation,” Russ. Metall. (Metally), No. 13, 82–86 (2018).
  11. 11.
    A. I. Kashirin and A. V. Shkodkin, “Gas-dynamic spraying of metallic coatings: development and the state of the art,” Upr. Tekhn. Pokr., No. 12 (36), 22–33 (2007).Google Scholar
  12. 12.
    A. P. Alkhimov, S. V. Klinov, V. F. Kosarev, and V. M. Fomin, Cold Gas-Dynamic Spraying. Theory and Practice (Fizmatlit, Moscow, 2010).Google Scholar
  13. 13.
    Yu. A. Kuznetsov and V. V. Goncharenko, “Technologies of high-speed spraying,” Tekhn. Oborud. Sela, No. 8 (194), 40–45 (2013).Google Scholar
  14. 14.
    V. E. Arkhipov, A. F. Londarskii, G. V. Moskvitin, and M. S. Pugachev, Gas-Dynamic Spraying. Structure and Properties of Coatings (Krasand, Moscow, 2017).Google Scholar
  15. 15.
    Yu. A. Kuznetsov, I. N. Kravchenko, A. V. Sirotov, and T. A. Chekha, “Adhesion and wear resistance of the coatings deposited using a combined technology,” Remont. Vosstanovlenie. Modernizatsiya, No. 7, 28–33 (2018). CrossRefGoogle Scholar

Copyright information

© Pleiades Publishing, Ltd. 2019

Authors and Affiliations

  • Yu. A. Kuznetsov
    • 1
  • I. N. Kravchenko
    • 2
  • A. A. Sevryukov
    • 3
    Email author
  • M. A. Glinskii
    • 2
  1. 1.Orel State Agrarian UniversityOrelRussia
  2. 2.Russian State Agrarian University—Timiryazev Agricultural AcademyMoscowRussia
  3. 3.National Defense Management CenterMoscowRussia

Personalised recommendations