OBRABOTKAMETALLOV Vol. 23 No. 3 2021 MATERIAL SCIENCE EQUIPMENT. INSTRUMENTS 5 1 3 19. Rodionova V.N., Lutsenko M.S. Organizatsionnye osnovy obespecheniya gibkosti proizvodstva v usloviyakh razvitiya innovatsionnoi deyatel’nosti [Organizational basis for flexibility of production in the development of innovation]. Organizator proizvodstva = Organizer of Production, 2012, no. 4 (55), pp. 17–22. 20. Skeeba V.Yu., Ivancivsky V.V., Martyushev N.V. Peculiarities of high-energy induction heating during surface hardening in hybrid processing conditions. Metals, 2021, vol. 11, iss. 9, p. 1354. DOI: 10.3390/met11091354. 21. Efremenkov E.A., Martyushev N.V., Skeeba V.Yu., Grechneva M.V., Olisov A.V., Ens A.D. Research on the possibility of lowering the manufacturing accuracy of cycloid transmission wheels with intermediate rolling elements and a free cage. Applied Sciences, 2022, vol. 12, iss. 5. DOI: 10.3390/app12010005. 22. Zarechenskii A.M. Organizatsiya proizvodstva na vysokotekhnologichnykh predpriyatiyakh v usloviyakh tsifrovoi ekonomiki [Organization of production at high-tech enterprises in the conditions of digital economy]. STIN = Russian Engineering Research, 2021, no. 11, pp. 10–12. (In Russian). 23. Bratan S.M., Kharchenko A.O., Vladetskaya E.A., Kharchenko A.A. Analiz i sintez sistemy vibroizolyatsii shlifoval’nogo stanka s uchetom ekspluatatsionnoi nadezhnosti ee elementov [Analysis and synthesis of vibration isolation system of a grinding machine with account of the operational reliability of its elements]. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science, 2019, vol. 21, no. 1, pp. 35–49. DOI: 10.17212/1994-6309-2019-21.1-35-49. 24. MakarovV.F., TuktamyshevV.R.,Maslenkov S.V., KataevYa.A., Koynov I.I., TrepezaevaO.I.Avtomatizatsiya konstruktorsko-tekhnologicheskoi podgotovki proizvodstva na osnove sinkhronnogo podkhoda [Automation of design-engineering preparation of production on the base of synchronous approach]. Naukoemkie tekhnologii v mashinostroenii= Science Intensive Technologies in Mechanical Engineering, 2014, no. 9 (39), pp. 35–39. 25. Kisel’ A.G., Rechenko D.S. Otsenka tekhnologicheskoi effektivnosti smazochno-okhlazhdayushchikh zhidkostei pri lezviinoi obrabotke [Evaluation of the technological efficiency of lubricant-cooling liquids for blading]. Mekhaniki XXI veku = Mechanical engineers to XXI century, 2013, no. 12, pp. 160–161. 26. Roshchupkin S.I., Kolesov A.G., Tarakhovskiy A.Yu. Analiz tekhnologii i oborudovaniya dlya izgotovleniya metallopolimernykh filamentov dlya 3D-pechati po tekhnologii Fused deposition modeling (FDM) [Analysis of technology and equipment for the production of metal-polymer filaments for 3d printing using fused deposition modeling (FDM) technology]. Mekhatronika, avtomatika i robototekhnika =Mechatronics, Automation and Robotics, 2021, no. 7, pp. 25–27. DOI: 10.26160/2541-8637-2021-7-25-27. 27. Lobanov D.V., Yanyushkin A.S. Tekhnologiya instrumental’nogo obespecheniya proizvodstva izdelii iz kompozitsionnykh nemetallicheskikh materialov [Tooling technology for the production of products from composite non-metallic materials]. Stary Oskol, Tonkie naukoemkie tekhnologii Publ., 2012. 296 p. 28. Makarov V.F., Meshkas A.E., Shirinkin V.V. Issledovanie protsessov mekhanicheskoi obrabotki detalei aviatsionno-kosmicheskoi tekhniki iz novykh kompozitsionnykh materialov [Research of processes of machining of details of aerospace technics from new composite materials]. Novye materialy i tekhnologii v mashinostroenii = New Materials and Technologies in Engineering, 2015, no. 22, pp. 14–22. 29. Rychkov D.A., Yanyushkin A.S. Tekhnologiya mekhanicheskoi obrabotki kompozitsionnykh materialov [Technology of mechanical processing of composite materials]. Bratsk, Bratsk State University Publ., 2017. 224 p. 30. Makarov V.F., Meshkas A.E., Shirinkin V.V. Issledovanie problem mekhanicheskoi obrabotki sovremennykh vysokoprochnykh kompozitsionnykh materialov, ispol’zuemykh dlya proizvodstva detalei aviatsionnoi i raketnokosmicheskoi tekhniki [Research problems machining high strength composite materials used for the production of details of aviation and space-rocket technicians]. Vestnik Permskogo natsional’nogo issledovatel’skogo politekhnicheskogo universiteta. Mashinostroenie, materialovedenie = Bulletin PNRPU. Mechanical engineering, materials science, 2015, no. 2, pp. 30–41. 31. Lobanov D.V., Vladimirova N.A., Rafanova O.S. [Features of the process blade processing polymeric composite materials and formation of the cutting tool]. Elektrofizicheskie metody obrabotki v sovremennoi promyshlennosti [Electrophysical Machining in Modern Industry: Proceedings of International scientific-practical conference of young scientists, graduate students and students], Perm, 2021, pp. 141–144. (In Russian). 32. Makarov V.F., Koinov I.I., Absaiev R.S., Shirinkin V.V., Meshkas A.E. Osobennosti diagnostiki protsessa rezaniya pri sverlenii kompozitsionnykh materialov [Peculiarities in diagnostics of cutting process at composite material drilling]. Naukoemkie tekhnologii v mashinostroenii = Science Intensive Technologies in Mechanical Engineering, 2016, no. 12 (66), pp. 20–27. 33. Lobanov D.V., Yanyushkin A.S., Rychkov D.A. Optimizatsiya vybora rezhushchego instrumenta na osnove metodov sravnitel’nogo analiza [Optimization of the choice of the cutting tool on the basis of methods of the
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