KOROLEV Albert V., D. Sc. in Eng., Prof., Professor of the Department of Mechanical Engineering Technology, Yuri Gagarin State Technical University of Saratov, Saratov, Russian Federation, 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.

KOROLEV Andrey A., D. Sc. in Eng., Prof., Professor of the Department of Information Law and Digital Technology, Saratov State Academy of Law, Saratov, Russian Federation, 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.

BONDAREVA Albina S., Postgraduate Student of the Department of Mechanical Engineering Technology, Yuri Gagarin State Technical University of Saratov, Saratov, Russian Federation, 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.

1. Korolev A.V., Noskov A.S. Sposob naneseniya pokrytiya [Coating application method]. Patent RU, no. 2526342 C1, 2014 (in Russ.).
2. Korolev A.V., Korolev A.A., Bondareva A.S. Vliyanie rezhima naneseniya antifriktsionnogo pokrytiya na tolshchinu pokrytiya detali [Effect of antifriction coating deposition mode on coating thickness of part surface]. Strengthening technologies and coatings, 2023, vol. 19, no. 8(224), pp. 349–352. DOI: https://doi.org/10.36652/1813-1336-2023-19-8-349-352 (in Russ.).
3. Papsheva N.D. Metody almaznogo vyglazhivaniya detaley mashin i instrumentov [Methods of diamond smoothing of machine parts and tools]. Sovremennye problemy teorii mashin, 2016, no. 4-2, pp. 102–104 (in Russ.).
4. Boltokov D.O., Samul A.G., Gileta V.P. Sravnitelnyy analiz metodov poverkhnostnogo plasticheskogo deformirovaniya: almaznoe vyglazhivanie i ultrazvukovoe plasticheskoe deformirovanie [Comparative analysis of methods of surface plastic deformation: diamond smoothing and ultrasonic plastic deformation]. 8 Vserossiyskaya nauchno-practicheskaya konferentsiya “Sotsialno-ekonomicheskie i tekhnicheskie problemy oboronno-promyslennogo kompleksa Rossii: istoriya, realnost, inтovatsii” [8th All-Russian scientific and practical conference “Socio-economic and technical problems of the Russian military-industrial complex: history, reality, innovations”]. Nizhniy Novgorod, 2022, pp. 125–128 (in Russ.).
5. Malyshev V.I., Selivanov A.S. Analiz vzaimosvyazi plotnosti dislokatsiy s plasticheskoy deformatsiey poverkhnostnogo sloya pri obychnom i ultrazvukovom almaznom vyglazhivanii [The analysis of interrelation of density of dispositions with plastic deformation of the blanket at usual and ultrasonic superficial plastic deformation]. Science vector of Togliatti State University, 2009, no. 6(9), pp. 7–13 (in Russ.).
6. Malyshev V.I., Selivanov A.S. Analiz razvitiya plasticheskoy deformatsii v poverkhnostnom sloe pri ultrazvukovom almaznom vyglazhivanii [Analysis of plastic deformation on the surface in the process of ultrasonic diamond burnishing]. Izvestia of Samara Scientific Center of the Russian Academy of Sciences, 2010, vol. 12, no. 4-1, pp. 233–236 (in Russ.).
7. Malyshev V.I., Selivanov A.S. Teoreticheskiy analiz razvitiya plasticheskoy deformatsii v poverkhnostnom sloe pri ultrazvukovom almaznom vyglazhivanii [Theoretical analysis of the development of plastic deformation in the surface layer during ultrasonic diamond smoothing]. Materialy Vserossiyskoy nauchno-prakticheskoy konferentsii s elementami nauchnoy shkoly dlya molodezhi “Provedenie nauchnykh issledovaniy v oblasti mashinostroeniya” [Proc. All-Russian scientific and technical conference with elements of a scientific school for young people “Conducting scientific research in the field of mechanical engineering”]. Togliatti, 2009, vol. 1, pp. 245–251 (in Russ.).
8. Iskhakova G.A., Gileta V.P. Formirovanie poverkhnostnogo sloya detaley pri ultrazvukovom almaznom vyglazhivanii [Formation of the surface layer of parts during ultrasonic diamond smoothing]. Sverkhtverdye materialy, 1987, no. 5, pp. 53–58 (in Russ.).
9. Samul А. Ultrasonic processing of low hardness materials. Nauchno-prakticheskaya konferentsiya aspirantov i magistrantov “Science. Research. Practice” [Scientific and practical conference of postgraduates and undergraduates “Science. Research. Practice”]. Novosibirsk, 2017, pp. 145–147 (in Russ.).
10. Stepcheva Z.V. Povyshenie effektivnosti almaznogo vyglazhivaniya na osnove ratsionalnogo ispolzovaniya energii modulirovannogo ultrazvukovogo polya. Diss. kand. tekhn. nauk [Improving the efficiency of diamond smoothing based on the rational use of the energy of the modulated ultrasonic field. Ph. D. Thesis]. Ulyanovsk, 2007. 232 p. (in Russ.).
11. Kiselev E.S., Stepcheva Z.V., Polovnikov P.A. Formirovanie regulyarnogo mikrorelefa ultrazvukovym almaznym vyglazhivaniem s predvaritelnoy relaksatsiey ostatochnykh napryazheniy [Formation of a regular microrelief by ultrasonic diamond smoothing with preliminary relaxation of residual stresses]. Progressivnye tekhnologii i sistemy mashinostroeniya, 2007, no. 2(34), pp. 103–108 (in Russ.).
12. Iskhakova G.A., Gileta V.P. Modelirovanie protsessa formirovaniya regulyarnogo relefa pri ultrazvukovom almaznom vyglazhivanii [Modeling of the process of forming a regular relief with ultrasonic diamond smoothing]. Sverkhtverdye materialy, 1988, no. 6, pp. 48–53 (in Russ.).
13. Kiselev E.S., Stepcheva Z.V. Effektivnost kasatelno-osevykh nalozheniy ultrazvukovykh kolebaniy v protsesse almaznogo vyglazhivaniya stalnykh zagotovok [The efficiency of using the tangent-axial direction of ultrasonic fluctuations in process diamond burnishing]. Strengthening technologies and coatings, 2007, no. 7(31), pp. 34–38 (in Russ.).
14. Kiselev E.S., Stepcheva Z.V. Effektivnost primeneniya modulyatsii ultrazvukovykh kolebaniy pri almaznom vyglazhivanii zagotovok [Effectiveness of using the modulation of ultrasonic vibrations when diamond burnishing of blanks]. Bulletin of Ulyanovsk State Technical University, 2007, no. 1(37), pp. 36–39 (in Russ.).
15. Kiselev E.S., Podoprigorov D.E., Kirnasov T.G. Almaznoe vyglazhivanie stalnykh zagotovok s ispolzovaniem energii modulirovannogo UZ-polya [Diamond smoothing of steel workpieces using the energy of a modulated ultrasonic field]. Bulletin of Ulyanovsk State Technical University, 2002, no. 1(17), pp. 81–85 (in Russ.).
16. Selivanov A.S., Malyshev V.I., Danshina E.A. Formirovanie dislokatsionnoy struktury pri ultrazvukovom almaznom vyglazhivanii stali 08Kh12N10T [Formation of dislocation structure during ultrasonic diamond smoothing of 08Kh12N10T steel]. Materialy Vserossiyskoy nauchno-prakticheskoy konferentsii s elementami nauchnoy shkoly dlya molodezhi “Provedenie nauchnykh issledovaniy v oblasti mashinostroeniya” [Proc. All-Russian scientific and technical conference with elements of a scientific school for young people “Conducting scientific research in the field of mechanical engineering”]. Togliatti, 2009, vol. 1, pp. 231–236 (in Russ.).
17. Likhobabina N.V. Povyshenie effektivnosti i kachestva izgotovleniya rolikov buksovykh podshipnikov putem vvedeniya v tekhnologicheskiy protsess operatsii ultrazvukovogo almaznogo vyglazhivaniya. Diss. kand. tekhn. nauk [Improving the efficiency and quality of the manufacture of box bearing rollers by introducing ultrasonic diamond smoothing operations into the technological process. Ph. D. Thesis]. Saratov, 2009. 125 p. (in Russ.).