Yanyushkin A.S. et. al. 2018 Vol. 20 No. 3

OBRABOTKAMETALLOV Vol. 20 No. 3 2018 45 TECHNOLOGY 3. Kugul’tinov S.D., Koval’chuk A.K., Portnov I.I. Tekhnologiya obrabotki konstruktsionnykh materialov [Processing technology of construction materials]. 2 nd ed. Moscow, Bauman MSTU Publ., 2008. 672 p. ISBN 5-7038- 2795-7. 4. Sidorenko S.A., Yushchenko D.A., Bol’sheshapova A.V. [Increasing the efficiency of obtaining products from composite wood materials with the use of cutting tools]. Novye metody i tekhnologii: sostoyanie voprosa i perspektivy razvitiya : sbornik materialov Vserossiiskoi molodezhnoi nauchnoi konferentsii [Proceedings of All-Russian youth scientific conference “New methods and technologies: state and development prospects”]. Saratov, 2014, pp. 23–26. (In Russian). 5. Lobanov D.V., Yanyushkin A.S. Tekhnologiya instrumental’nogo obespecheniya proizvodstva izdelii iz kompozitsionnykh nemetallicheskikh materialov [The technology of instrumental production of products from composite non-metallic materials]. Staryi Oskol, TNT Publ., 2012. 296 p. 6. Popov A.Y., Rechenko D.S., Averkov K.V., Sergeev V.A. High-speed grinding of ZhS6-K high-temperature nickel alloy. Russian Engineering Research , 2012, vol. 32, no. 5–6, pp. 511–512. doi: 10.3103/S1068798X12050176. 7. Rechenko D.S., Popov A.Y., Gritsenko B.P., Sungatulin A.R., Titov Y.V., Sergeev V.P., Voronov A.V., Deev K.A., Pupchin V.A. Formation of wear-resistant structures on solid alloy for superfinish processing . AIP Annual Conference Proceedings , 2016, vol. 1783, iss. 1, p. 020191. doi: 10.1063/1.4966485. 8. Soler Ya.I., Nguyen V.L. Selection of synthesis corundum grain in grinding flat parts from hardened steel 30CHGSA by the macrogeometry criterion. Applied Mechanics and Materials , 2015, vol. 788, pp. 95–101. doi: 10.4028/www.scientific.net/AMM.788.95. 9. Belan D.Y., Dyundin V.V., Rechenko D.S., Titov Y.V. High-quality tools in the machining of commutators. Russian Engineering Research , 2016, vol. 36, no. 11, pp. 948–950. doi: 10.3103/S1068798X16110058. 10. BratanS.M.,NovoselovYu.K.,MinaevN.A.Modelirovanies”emapripuskanaoperatsiyakhkombinirovannogo shlifovaniya v passiviruyushchikh sredakh [Simulation of allowance removal in combined grinding operations in passive media]. Vestnik Natsional’nogo tekhnicheskogo universiteta Ukrainy “Kievskii politekhnicheskii institut”. Seriya: Mashinostroenie = Bulletin of National Technical University of Ukraine “KPI”. Series “Mechanical Engineering” , 2009, no. 56, pp. 244–257. 11. Bratan S.M., Sidorov D.E., Revenko D.V. Modelirovanie s”ema materiala pri shlifovanii poverkhnostei s vvedeniem v zonu obrabotki dopolnitel’noi elektricheskoi energii [Modeling material removal during surface grinding with introduction of additional electric energy into the processing zone]. Visnik SevNTU = Journal of the Sevastopol National Technical University , 2011, no. 118, pp. 6–14. 12. Popov V.Yu., Arkhipov P.V., Rychkov D.A. Adhesive wear mechanism under combined electric diamond grinding. MATEC Web of Conferences , 2017, vol. 129, p. 01002. doi: 10.1051/matecconf/201712901002. 13. Bratan S., Roshchupkin S., Kolesov A., Bogutsky B. Identification of removal parameters at combined grinding of conductive ceramic materials. MATEC Web of Conferences , 2017, vol. 129, p. 01079. doi: 10.1051/ matecconf/201712901079. 14. Skeeba V.Yu., Ivancivsky V.V., Zhigulev A.K., Skeeba P.Yu., Lobanov D.V. Integrated processing: quality assurance procedure of the surface layer of machine parts during the manufacturing step “Diamond smoothing”. IOP Conference Series: Materials Science and Engineering , 2016, vol. 125, p. 012031. doi: 10.1088/1757- 899X/125/1/012031. 15. Yanyushkin A., Lobanov D., Arkhipov P., Ivancivsky V. Contact processes in grinding. Applied Mechanics and Materials , 2015, vol. 788, pp. 17–21. doi: 10.4028/www.scientific.net/AMM.788.17. 16. Yanyushkin A.S., Lobanov D.V., Arkhipov P.V. Poterya rezhushchei sposobnosti almaznykh krugov na metallicheskoi svyazke pri shlifovanii kompozitsionnykh materialov [Loss of cutting ability of metal bound diamond wheels at grind of composite materials]. Vestnik Sibirskogo gosudarstvennogo aerokosmicheskogo universiteta im. akademika M.F. Reshetneva = Vestnik SibGAU , 2013, no. 1 (47), pp. 178–183. 17. Novoselov Yu.K., Bratan S.M. Modelirovanie protsessov vzaimodeistviya shlifoval’nogo kruga i zagotovki pri chistovom shlifovanii [Simulation of the processes of interaction between grinding wheels and a workpiece at fair grinding]. Visnik SevNTU = Journal of the Sevastopol National Technical University , 2011, no. 118, pp. 92–106. 18. Skeeba V.Yu., Ivancivsky V.V., Pushnin V.N. Numerical modeling of steel surface hardening in the process of high energy heating by high frequency currents. Applied Mechanics and Materials , 2014, vol. 698, pp. 288–293. doi: 10.4028/www.scientific.net/AMM.698.288. 19. Bratan S., Novosyolov Y., Roshupkin S. Modeling of cutting forces in diamond drilling. International Journal of Innovative and Information Manufacturing Technologies , 2015, no. 2, pp. 59–63.

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