1 Table of Contents cover page

Development of a device for studying and simulating the electrochemical grinding process

OBRABOTKAMETALLOV Vol. 23 No. 3 2021 MATERIAL SCIENCE EQUIPMENT. INSTRUMENTS 7 1 5 CNC profile grinding machine CHEVALIER model smart-B1224 III]. Izvestiya Volgogradskogo gosudarstvennogo tekhnicheskogo universiteta = Izvestia of Volgograd State Technical University, 2016, no. 5 (184), pp. 35–39. 14. Gusev V.V., Moiseev D.A. Otsenka parametrov rabochei poverkhnosti almaznogo shlifoval’nogo kruga [Estimation of parameters of the working surface of a diamond grinding wheel]. Progressivnye tekhnologii i sistemy mashinostroeniya = Progressive Technologies and Systems of Mechanical Engineering, 2017, no. 4 (59), pp. 11–17. 15. Makarov V.F., Nikitin S.P. Povyshenie effektivnosti profil’nogo glubinnogo shlifovaniya lopatok turbin na mnogokoordinatnykh stankakh s ChPU [Increasing the efficiency of profile deep-depth grinding of turbine blades on multi-axis CNC machines]. Naukoemkie tekhnologii v mashinostroenii = Science Intensive Technologies in Mechanical Engineering, 2018, no. 4 (82), pp. 21–29. 16. Makarov V.F., Zhukotsky V.A., Bychina E.N. Problemy avtomatizatsii finishnoi obrabotki slozhnoprofil’nykh poverkhnostei lopatok GTD [Problems of automation of finishing processing of difficult profile surfaces of blades GTE]. Izvestiya Tul’skogo gosudarstvennogo universiteta. Tekhnicheskie nauki = News of Tula State University. Technical Sciences, 2016, no. 8-2, pp. 52–55. 17. Yanyushkin A.S., Popov V.Yu., Sur’ev A.A., Yanpol’skii V.V. Prisposoblenie dlya izmereniya malykh sil pri elektroalmaznom shlifovanii [Device for measuring small forces during electric diamond grinding]. Patent RF, no. 2215641 C2, 2003. 18. Yanyushkin A.S., Popov V.Yu., Sur’ev A.A., Yanpol’skii V.V. Tenzometricheskaya vstavka dlya izmereniya malykh sil pri elektroalmaznom shlifovanii [Strain gauge insert for measuring small forces during electric diamond grinding]. Patent RF, no. 2210749 C2, 2003. 19. Nosenko V.A., Nosenko S.V. Tekhnologiya shlifovaniya metallov [Metal grinding technology]. 4th ed. Staryi Oskol, Tonkie naukoemkie tekhnologii Publ., 2022. 616 p. 20. Lobanov D., BorisovM., YanyushkinA., Skeeba V. Influence of the duration of current pulses on the roughness in the combined processing of corrosion steel 12H18N10T. Key Engineering Materials, 2022, vol. 910, pp. 397–402. DOI: 10.4028/p-gu270a. 21. Zaborski S., Łupak M., Poroś D. Wear of cathode in abrasive electrochemical grinding of hardly machined materials. Journal of Materials Processing Technology, 2004, vol. 149 (1–3), pp. 414–418. DOI: 10.1016/j. jmatprotec.2004.02.015. 22. Mogilnikov V.A., Chmir M.Y., Timofeev Y.S., Poluyanov V.S. Diamond – ECM grinding of ceramic-metal tungsten. Proceedings of the Seventeenth CIRP Conference on Electro Physical and Chemical Machining (ISEM), Leuven, 08–12 April 2013, pp. 407–409. DOI: 10.1016/j.procir.2013.03.104. 23. Gusev V.V., Poltavets V.V., Molchanov A.D. [Technological support for processing hard-to-cut materials by diamond grinding by controlling the cutting ability of wheels]. Innovatsionnye perspektivy Donbassa [Innovative prospects of Donbass]. Materials of the 5th International Scientific and Practical Conference, Donetsk, May 21–23, 2019. Donetsk, 2019, vol. 3, pp. 119–123. (In Russian). 24. Gantsev R.Kh., Gunderov D.V., Atroshchenko V.V., Taimasova L.A., Vatuev M.V. Povyshenie kachestva abrazivnogo elektrokhimicheskogo shlifovaniya zharoprochnykh splavov na nikelevoi osnove [Improving the quality of abrasive electrochemical grinding of nickel-based heat-resistant alloys]. Neftegazovye tekhnologii i novye materialy. Problemy i resheniya [Oil and gas technologies and new materials. Problems and solutions]. Ufa, 2019, iss. 8 (13), pp. 322–326. 25. Zhetesova G.S., Bulatov D.Zh. Opredelenie naibolee optimal’nykh parametrov i uslovii elektromekhanicheskoi obrabotki [Determination of the most optimal parameters and conditions for electromechanical processing]. Trudy Universiteta = University Proceedings, 2014, no. 1 (54), pp. 24–26. 26. Yanyushkin A.S., Medvedeva O.I., Arkhipov P.V., Popov V.Yu. Mekhanizm obrazovaniya zashchitnykh plenok na almaznykh krugakh s metallicheskoi svyazkoi [The mechanism of formation of protective films on diamond wheels with a metal bond]. Sistemy. Metody. Tekhnologii = Systems. Methods. Technologies, 2010, no. 1 (5), pp. 132–138. 27. Popov V.Yu., Yanyushkin A.S. Formirovanie poverkhnostnogo sloya rezhushchego instrumenta pri almaznoi obrabotke krugami na metallicheskoi svyazke [Developing a surface layer of cutting tools in diamond grinding wheels on a metal bond]. Reshetnevskie chteniya = Reshetnev readings, 2014, vol. 1, pp. 306–308. 28. Kozlov A.M., Ambrosimov S.K., Kozlov A.A. Modeling abrasive grain interaction with machined surface. Proceedings of the 6th International Conference on Industrial Engineering (ICIE 2020), Sochi, Russia, 18–22 May 2020. Springer, 2021, pp. 953–960. DOI: 10.1007/978-3-030-54817-9_110. 29. Bratan S., Bogutsky B., Roshchupkin S. Development of mathematical model of material removal calculation for combined grinding process. Proceedings of the 4th International Conference on Industrial Engineering ICIE 2018, Moscow, 15–18 May 2018. Springer, 2019, pp. 1759–1769. DOI: 10.1007/978-3-319-95630-5_189.

RkJQdWJsaXNoZXIy MTk0ODM1