Kudryashov EA et al. 2017 no. 1(74)

ОБРАБОТКА МЕТАЛЛОВ № 1 (74) 2017 11 ТЕХНОЛОГИЯ The using of this device allows providing the quality of finished surface and increasing durability of cutting tool with composite plates due to adhesive wear decrease. Keywords drilling, tough materials, fixture design, cutting vibration, cutting elements, modification of cubic boron nitride, performance, quality DOI: 10.17212/1994-6309-2017-1-6-12 References 1. Smirnov I.M. Povyshenie effektivnosti protsessov mekhanicheskoi obrabotki konstruktivno slozhnykh detalei mashin [The increase the efficiency of the machining processes highly engineered machine parts]. Moscow, Triumf Publ., 2012. 224 p. ISBN 978-5-89392-576-0. 2. Kudryashov E.A., Emel’yanov S.G., Yatsun E.I., Pavlov E.V. Tekhnologicheskoe osnashchenie protsessov izgotovleniya konstruktivno slozhnykh detalei [The machining attachments of fabrication processes structurally complex parts]. Staryi Oskol, TNT Publ., 2013. 268 p. ISBN 978-5-94178-375-5. 3. Smirnov I.M. Instrumental’noe obespechenie protsessov mekhanicheskoi obrabotki konstruktivno slozhnykh detalei mashin [The tool support of machining structurally complex machine parts]. Moscow, Triumf Publ., 2014. 128 p. ISBN 978-5-89392-607-1. 4. Kudryashov E.A. Obrabotka detalei instrumentom iz kompozitov v oslozhnennykh tekhnologicheskikh usloviyakh. T. 1 [The processing parts of composite materials in complicated technological conditions. Vol. 1]. Chita, ChitGU Publ., 2002. 257 p. 5. Kudryashov E.A., Altukhov A.Yu., Lunin D.Yu., Fomichev E.N. Tekhnologicheskie preimushchestva instrumental’nogo materiala kompozit pri obrabotke konstruktivno slozhnykh poverkhnostei detalei [Technological advantages of the tool material composite when machining structurally complex surfaces of parts]. Izvestiya VolgGTU – Izvestia VSTU , 2010, vol. 6, no. 12 (72), pp. 15–20. 6. Kudryashov E.A., Smirnov I.M. K voprosu vybora ratsional’noi marki i instrumental’nogo materiala [Choosing rational brand of the tool material]. Sistemy. Metody. Tekhnologii – Systems. Methods. Technologies , 2014, no. 2 (22), pp. 118–125. 7. Maslennikov A.V., Chevychelov S.A., Gvozdev D.I., Merzhoeva M.S., Gatiev M.Sh. Analiz effektivnosti protsessa vibratsionnogo formoobrazovaniya otverstii [Analysis of efficiency of process vibration forming holes]. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta. Seriya Tekhnika i tekhnologii – Proceedings of the South- West State University. Technics and Technologies , 2012, no. 2, pt. 3, pp. 47–52. 8. Kumabe J. Vibration Cutting . Tokyo, Jikkyou Publ., 1979 (In Japanese) (Russ. ed.: Kumabe D. Vibratsionnoe rezanie . Translated from Japanese. Moscow, Mashinostroenie Publ., 1985. 424 p.). 9. Lomaev V.N., Dudarev A.S. Perspektivy mekhanicheskoi obrabotki otverstii pri proizvodstve izdelii iz voloknistykh kompozitsionnykh materialov grazhdanskoi aviatekhniki [Prospects for machining of holes in the manufacturing of fibrous composite materials of civil aircraft]. Tekhnologiya Mashinostroenya – Technology of Mechanical Engineering , 2006, no. 7. pp. 18–20. 10. Poduraev V.N., Valikov V.I. [Physical characteristics of the vibration drilling process]. Rezanie trudnoobrabatyvaemykh materialov : materialy seminara. Moskovskii dom nauchno-tekhnicheskoi propagandy [Proceedings of the Moscow House of Scientific and Technical Information “Cutting hard materials”]. Moscow, 1969, pp. 95–101. (In Russian) 11. Maslennikov A.V., Chevychelov S.A., Merzhoeva M.S., Gatiev M.S., Sidorova V.V. Influence of axial harmonic oscillations on chip formation when drilling holes in ductile metals. Russian Engineering Research , 2014. vol. 34, no. 11, pp. 722–724. doi: 10.3103/S1068798X14110136 12. Maslennikov A.V., Chevychelov S.A., Golubev I.G. Rear angle of a helical bit in hole shaping with axial vibration. Russian Engineering Research , 2013, vol. 33, no. 5, pp. 295–298. doi: 10.3103/S1068798X13050092 13. Maslennikov A.V., Chevychelov S.A., Gvozdev D.I., Sidorova V.V., Gatiev M.Sh. Ispol’zovanie vibratsion- nogo rezaniya dlya upravleniya struzhkoobrazovaniem [Use of vibration cutting for control chip formation]. Izvesti- ya Yugo-Zapadnogo gosudarstvennogo universiteta. Seriya Tekhnika i tekhnologii – Proceedings of the South-West State University. Technics and Technologies , 2012, no. 2, pt. 1, pp. 117–120. 14. Sidorova V.V., Razumov M.S. Ustroistvo dlya vibratsionnogo sverleniya [Device for vibration drilling]. Fundamental’nye i prikladnye problemy tekhniki i tekhnologii – Fundamental and Applied Problems of Engineering and Technology , 2014, no. 4 (306), pp. 51–54.