OBRABOTKAMETALLOV MATERIAL SCIENCE Том 23 № 3 2021 EQUIPMEN . INSTRUM TS Vol. 5 No. 1 2023 5. Kudryashov E.A., Nikonov A.M. Obrabotka detalei iz raznorodnykh konstruktsionnykh materialov instrumentom iz kompozitov [Processing parts from heterogeneous structural materials with a tool from composites]. STIN= Russian Engineering Research, 2008, no. 12, pp. 26–28. (In Russian). 6. Tatarkin E.Yu., Ikonnikov A.M., Schrayner T.A. [Automated selection tool for operations magnetic abrasive machining of complex surfaces]. Innovatsii v mashinostroenii (InMash-2015) [Innovation in mechanical engineering (ISPCIME-2015)]. VII International Scientific and Practical Conference. Materials. Kemerovo, 2015, pp. 196–201. (In Russian). 7. Nosenko V.A., Larionov N.F., Egorov N.I., Volkov M.P. Vybor kharakteristiki abrazivnogo instrumenta i SOZh dlya glubinnogo shlifovaniya [The choice of the characterization of abrasive tools and coolant for deep grinding]. Vestnik mashinostroeniya = Russian Engineering Research, 1989, no. 5, pp. 17–21. (In Russian). 8. Ivancivsky V.V., Skeeba V.Yu. Povyshenie poverkhnostnoi mikrotverdosti stali pri integratsii poverkhnostnotermicheskoi i finishnoi mekhanicheskoi obrabotok [Increased surfacemicrohardness of steel in the integration of surfacethermal and mechanical finishing treatments]. Nauchnyi vestnik Novosibirskogo gosudarstvennogo tekhnicheskogo universiteta = Science bulletin of the Novosibirsk state technical university, 2006, no. 3 (24), pp. 187–192. 9. Zakharov O.V., Kochetkov A.V., Bobrovskij N.M., Bobrovskij I.N., Melnikov P.A. Analysis of stationary means of measurement filters with optimum sensitivity. 13th International Scientific Technical Conference on Actual Problems of Electronic Instrument Engineering (APEIE-2016): Proceedings: in 12 vols, Novosibirsk, 2016, pp. 241– 244. DOI: 10.1109/APEIE.2016.7802265. 10. Ivantsivsky V.V., Skeeba V.Yu. Sovmeshchenie operatsii poverkhnostnoi zakalki i finishnogo shlifovaniya na odnom tekhnologicheskom oborudovanii [Combining the operations of surface hardening and finish grinding on the same processing equipment]. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science, 2006, no. 1 (30), pp. 16–18. 11. Tatarkin E.Yu., Ikonnikov A.M. [Functional analysis of the technological processes of manufacturing parts]. Innovatsii v mashinostroenii [Works of the 4th International Scientific and Practical Conference “Innovation in mechanical engineering”]. Novosibirsk, 2013, pp. 386–387. (In Russian). 12. Nosenko V.A., Tyshkevich V.N., Orlov S.V., Sarazov A.V., Sukocheva E.A. Vybor optimal’nykh uslovii ploskogo shlifovaniya stal’nykh zagotovok [The determination of optimal conditions for flat grinding of steel workpieces]. Izvestiya vysshikh uchebnykh zavedenii. Mashinostroenie =BMSTU Journal of Mechanical Engineering, 2016, no. 6 (675), pp. 73–81. 13. SkeebaV.Yu. Obespechenie trebuemogo kharaktera raspredeleniya ostatochnykh napryazhenii pri uprochnenii vysokoenergeticheskim nagrevom tokami vysokoi chastoty [Providing the required character of the residual stress distribution for hardening high-energy high-frequency heating]. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science, 2007, no. 2 (35), pp. 25–27. 14. Malyuchenkov A.V., Kozhevnikov A.V. Organizatsiya podgotovki proizvodstva novykh izdelii kak osnova innovatsionnogo razvitiya predpriyatiya [Organization of preparation for the production of new products as a basis for innovative development of the enterprise]. Innovatsionnyi vestnik Region = Innovative bulletin Region, 2009, no. 1, pp. 14–21. 15. Amelin S.V. Organizatsiya proizvodstva v mashinostroenii v usloviyakh tsifrovoi transformatsii [Organization of production in mechanical engineering in conditions of digital transformation]. Organizator proizvodstva = Organizer of Production, 2020, vol. 28, no. 1, pp. 17–23. 16. Panov D.V., Malyshev V.V., Piyavskii S.A., Kovkov D.V. Sravnitel’nyi mnogokriterial’nyi analiz slozhnykh tekhnicheskikh i sotsial’nykh sistem v ekonomiko-upravlencheskom aspekte [Comparative multiobjective analysis of complicated technical and social systems in terms of economics and management]. MIR (Modernizatsiya. Innovatsii. Razvitie) = MIR (Modernization. Innovation. Research), 2016, vol. 7, no. 2 (26), pp. 74–83. DOI: 10.18184/20794665.2016.7.2.74.83. 17. Skeeba V.Yu., Ivancivskiy V.V., Zub N.P., Turevich S.V. Integral’naya obrabotka kak effektivnoe napravlenie resheniya zadachi perekhoda k resursosberegayushchim tekhnologiyam [Integrated processing as an effective direction of the decision problems of transition to alternative technologies]. Innovatsionnaya deyatel’nost’ = Innovation Activity, 2010, no. 1 (10), pp. 66–69. 18. Katyukha R., Bagretsov S., Babishkin A., Korolev V. Metodika kompleksnogo otsenivaniya tekhnicheskogo sostoyaniya slozhnykh tekhnicheskikh sistem, realizuemaya na osnove primeneniya teorii lineinykh preobrazovanii matrits [The method of comprehensive evaluation of the technical condition of complex technical systems, implemented on the basis of application of the theory of linear matrix transformations]. Komponenty i tekhnologii = Components and Technologies, 2016, no. 9 (182), pp. 122–123.
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