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Title of the article ANALYSIS OF THE EFFECT OF PRELIMINARY AND CYCLIC PLASTIC DEFORMATION ON THE CHEMICAL-THERMAL TREATMENT OF STRUCTURAL STEELS
Authors

KONSTANTINOV Valerij M., D. Sc. in Eng., Prof., Head of the Department “Materials Science in Mechanical Engineering”, Belarusian National Technical University, Minsk, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.">This email address is being protected from spambots. You need JavaScript enabled to view it.

LESHOK Vladislav A., Ph. D. Student, Belarusian National Technical University, Minsk, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.">This email address is being protected from spambots. You need JavaScript enabled to view it.

SHTEMPEL Oleg P., Associate Professor of the Department of Motor Transport, Euphrosyne Polotskaya State University of Polotsk, Novopolotsk, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.">This email address is being protected from spambots. You need JavaScript enabled to view it.
In the section MECHANICAL ENGINEERING TECHNOLOGIES
Year 2024
Issue 1(66)
Pages 37–42
Type of article RAR
Index UDK 621.785.5
DOI https://doi.org/10.46864/1995-0470-2024-1-66-37-42
Abstract The subject of the study was thermodiffusion nitrided and silicified layers on steels obtained after plastic deformation. The influence of preliminary plastic deformation on the low-temperature nitriding process and cyclic plastic deformation on the high-temperature silicification process is studied. The results obtained are of interest for accelerating the production processes of chemical-thermal treatment of steels. It is established that preliminary surface plastic deformation contributes to the intensification of the process of ion-plasma nitriding of structural steel. The presence of high-temperature cyclic plastic deformation ensures the intensification of diffusion processes during the resorption of the diffusion silicified layer on structural steel.
Keywords plastic deformation, intensification of chemical-thermal treatment, nitriding, silicification, structural steel
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Bibliography
  1. Minkevich A.N. Khimiko-termicheskaya obrabotka stali [Chemical-thermal treatment of steels]. Moscow, Mashgiz Publ., 1950. 432 p. (in Russ.).
  2. Panteleenko F.I., Lyakhovich L.S., Kukharev B.S. O klassifikatsii sposobov intensifikatsii protsessov khimiko-termicheskoy obrabotki metallov i splavov [On the classification of methods for intensifying the processes of chemical-thermal treatment of metals and alloys]. Metallurgiya, 1980, iss. 14, pp. 5–6 (in Russ.).
  3. Chudina O.V. Kombinirovannoe poverkhnostnoe uprochnenie stali (lazernoe legirovanie + azotirovanie) [Combined surface hardening of steel (laser alloying + nitriding)]. Metallovedenie i termicheskaya obrabotka metallov, 2010, no. 5, p. 27 (in Russ.).
  4. Balandin Yu.A., Kolpakov A.S., Zharkov E.V. Diffuzionnoe mnogokomponentnoe tsinkovanie stali 40Kh v vibrokipyashchem sloe [Dry multicomponent galvanizing of steel 40Kh in vibrobubbling bed]. Metallovedenie i termicheskaya obrabotka metallov, 2009, no. 1(643), pp. 46–49 (in Russ.).
  5. Kukareko V.A., Gacuro V.M., Grigorchik A.N., Chichin A.N. Matematicheskoe modelirovanie i mekhanizm ukrupneniya austenitnogo zerna pri vysokotemperaturnom nagreve legirovannykh konstruktsionnykh staley [Mathematical modeling and mechanism of coarsening of austenitic grain at high-temperature heating of alloyed structural steels]. Mechanics of machines, mechanisms and materials, 2019, no. 3(48), pp. 58–68 (in Russ.).
  6. Kukareko V.A., Konstantinov V.M., Vereshchak N.A., Grigorchik A.N. Struktura tekhnicheskogo titana, podvergnutogo nizkotemperaturnomu ionnomu azotirovaniyu [Structure of technical titanium subjected to low-temperature ionic nitriding]. Mechanics of machines, mechanisms and materials, 2022, no. 1(58), pp. 48–55. DOI: https://doi.org/10.46864/1995-0470-2022-1-58-48-55 (in Russ.).
  7. Petrova L.G., et al. Intensifikatsiya protsessov khimiko-termicheskoy obrabotki staley [Intensification of the processes of chemical-thermal treatment of steels]. Moscow, MADI Publ., 2019. 160 p. (in Russ.).
  8. Kuksenova L.I., Alekseeva M.S. Vliyanie predvaritelnoy obrabotki na tribotekhnicheskie kharakteristiki konstruktsionnykh azotirovannykh staley [Effect of preliminary treatment on tribotechnical characteristics of nitrided structural steels]. Metallovedenie i termicheskaya obrabotka metallov, 2023, no. 1(811), pp. 34–42. DOI: https://doi.org/10.30906/mitom.2023.1.34-42 (in Russ.).
  9. Farber V.M. Vklad diffuzionnykh protsessov v strukturoobrazovanie pri intensivnoy kholodnoy plasticheskoy deformatsii metallov [Contribution of diffusion processes to structure formation upon intensive cold deformation of metals]. Metallovedenie i termicheskaya obrabotka metallov, 2002, no. 8, pp. 3–9 (in Russ.).
  10. Aliev A.A., Voroshnin L.G. Borirovanie iz past [Borating from pastes]. Astrakhan, Astrakhanskiy gosudarstvennyy tekhnicheskiy universitet Publ., 2006. 287 p. (in Russ.).
  11. Skakov Yu.A. Vysokoenergeticheskaya plasticheskaya deformatsiya, diffuziya i mekhanokhimicheskiy sintez [High-energy cold plastic deformation, diffusion and mechanochemical synthesis]. Metallovedenie i termicheskaya obrabotka metallov, 2004, no. 4(586), pp. 3–12 (in Russ.).
  12. Khina B.B., Lovshenko G.F., Konstantinov V.M., Formanek B. Matematicheskaya model tverdofaznoy diffuzii pri periodicheskoy plasticheskoy deformatsii [Mathematical model of solid-phase diffusion under periodic plastic deformation]. Metallophysics and advanced technologies, 2005, vol. 27, no. 5, pp. 609–623 (in Russ.).
  13. Konstantinov V.M. Uskorennaya diffuziya legiruyushchikh elementov v zheleze pri khimiko-termicheskoy obrabotke poroshkov vo vrashchayushchemsya konteynere [Accelerated diffusion of alloying elements in iron during chemical-thermal treatment of powders in a rotating container]. Doklady of the National Academy of Sciences of Belarus, 2007, vol. 51, no. 2, pp. 103–107 (in Russ.).
  14. Bokshteyn S.Z. Diffuziya i struktura metallov [Diffusion and structure of metals]. Moscow, Metallurgiya Publ., 1973. 208 p. (in Russ.).
  15. Kovalevskaya Zh.G. Struktura i svoystva poverkhnostnykh sloev i pokrytiy pri modifitsiruyushchey ultrazvukovoy obrabotke. Diss. dokt. tekhn. nauk [Structure and properties of surface layers and coatings during modifying ultrasonic treatment. D. Sc. Thesis]. Tomsk, 2018. 334 p. (in Russ.).
  16. Belyaev V.I., et al. Vysokoskorostnaya deformatsiya metallov [High-speed deformation of metals]. Minsk, Nauka i tekhnika Publ., 1976. 224 p. (in Russ.).
  17. Shtremel M.A. Prochnost splavov. Chast II. Deformatsiya [Strength of alloys. Part II. Deformation]. Moscow, MISIS Publ., 1997. 527 p. (in Russ.).
  18. Konstantinov V.M., Panteleenko F.I., Shtempel O.P. Issledovanie protsessa diffuzionnogo legirovaniya metallicheskikh poroshkov dlya zashchitnykh pokrytiy [Investigation of the process of diffusion alloying of metal powders for protective coatings]. Vestnik Polotskogo gosudarstvennogo universiteta. Seriya B. Promyshlennost. Prikladnye nauki, 2002, vol. 1, no. 2, pp. 49–56 (in Russ.).