Vasilega D.S. et. al. 2019 Vol. 21 No. 1

OBRABOTKAMETALLOV Vol. 21 No. 1 2019 59 EQUIPMENT. INSTRUMENTS 3. Artamonov E.V. Prochnost’ i rabotosposobnost’ smennykh tverdosplavnykh plastin sbornykh rezhushchikh instrumentov [Durability and operability of replaceable hard-alloy plates of the combined cutting tools]. Tyumen State Oil and Gas University. Tyumen’, Vektor Buk Publ., 2003. 192 p. 4. Artamonov E.V., Kostiv V.M. Instrumental’nye tverdye splavy i ikh vliyanie na rabotosposobnost’ metallorezhushchikh instrumentov [Tool hard alloys and their influence on operability of metal-cutting tools]. Tyumen’, Tyumen State Oil and Gas University Publ., 1998. 136 p. 5. Nichkov A.G. Osnovy kompleksnogo issledovaniya protsessa zubofrezerovaniya i optimizatsii ego konstruktivnykh i tekhnologicheskikh parametrov v prostykh i kombinirovannykh skhemakh narezaniya zubchatykh koles chervyachnymi frezami . Diss. dokt. tekhn. Nauk [Bases of a complex research of process of gear milling and optimization of its design and process parameters in the simple and combined schemes of cutting of cogwheels worm mills. Dr. eng. sci. diss.]. Tula, 1991. 6. Nichkov A.G. [Firmness of a worm mill depending on the scheme of cutting]. Peredovoi nauchno- proizvodstvennyi opyt rezaniya metallov : tezisy dokladov konferentsii [Proceedings of the conference “Advanced research and production experience of metal cutting”]. Sverdlovsk, 1971, pp. 29–33. (In Russian). 7. Medveditskov S.N. Vysokoproizvoditel’noe zubonarezanie frezami [High-performance gear cutting by mills]. Moscow, Mashinostroenie Publ., 1981. 106 p. 8. Nichkov A.G., Martynenko V.A., Loskutov V.V. [Increase in firmness of worm mills due to the choice of rational parameters of gear milling]. Problemy sovershenstvovaniya malogabaritnykh zubofrezernykh stankov : materialy konferentsii [Problems of improvement of small-sized gear milling machines: conference of materials]. Vilnius, 1975, pp. 129–138. (In Russian). 9. Zhonghe Y, Zhaohui L, Smith M.R. Mechanisms and machine theory . Beijing, China, High Education Press, 2001. 10. Shunaev B.K., Petrova S.P. Kombinirovannye skhemy frezerovaniya zubchatykh koles s radial’nym vrezaniem chervyachnoi frezy [The combined schemes of milling of cogwheels with radial incision of a worm mill]. Progressivnye konstruktsii i metody obrabotki v instrumental’nom proizvodstve [Progressive designs and methods of processing in tool production]. Perm, 1975. 11. Skrebnev G.G. Opredelenie uslovii ratsional’nogo primeneniya tverdosplavnykh zuboreznykh frez i vozmozhnosti povysheniya imi proizvoditel’nosti protsessa zubofrezerovaniya . Avtoref. diss. kand. tekhn. nauk [Definition of conditions of rational application of hard-alloy gear-cutting mills and possibility of increase in productivity of gear milling process by them. Autor’s abstract of PhD eng. sci. diss.]. Volgograd, 1995. 12. Liu W., Ren D., Usui S., Wadell J., Marusich T.D. A gear cutting predictive model using the finite element method. Procedia CIRP , 2013, vol. 8, pp. 51–56. 13. Egorov S.B., Kapitanov A.V., Loktev D.A. Modern methods and technological solutions for effective processing of gear wheels. Materials Science Forum , 2016, vol. 870, pp. 397–403. doi: 10.4028/www.scientific.net/ MSF.870.397. 14. Ruban V.I., Godzhaev A.Z., Ruban V.M., Zaitsev S.D. Vybor optimal’nogo protsessa obrabotki zubchatykh koles [A choice of the tooth-wheels optimal manufacturing process]. Vestnik mashinostroeniya = Bulletin of mechanical engineering , 2008, no. 7, pp. 40–41. 15. Artamonov E.V., Vasil’ev D.V. Determining the optimal cutting speed in turning by composite cutters on the basis of the chip. Russian Engineering Research , 2014, vol. 34 (6), pp. 404–405. 16. Artamonov E.V., Kireev V.V., Effectiveness of cutting by hods with replaceable hard-alloy plates. Russian Engineering Research , 2014, vol. 37 (7), pp. 473–474. 17. Artamonov E.V., Vasilega D.S., Tveryakov A.M. Determining the maximum-performance temperature of hard-alloy cutting plates. Russian Engineering Research , 2014, vol. 34 (6), pp. 402–403. 18. Steina S., LechthaleraM., Krassnitzera S.,Albrechta K., SchindlerbA.,ArndtaM. Gear hobbing: a contribution to analogy testing and its wear mechanisms. Procedia CIRP , 2012, vol. 1 (1), pp. 220–225. 19. Tokawa T., Nishimura Y., Nakamura Y. High productivity dry hobbing system. Mitsubishi Heavy Industries. Technical Review , 2001, vol. 38, no. 1, pp. 27–31. 20. Kurochkin N., Solonitsyn B.M., Taratynov O.V., Klepikov V.V. Obrabotka zubchatykh koles: povyshenie proizvoditel’nosti i kachestva [Processing of gears: improving productivity and quality]. Gruzovik = Truck , 2005, no. 3, pp. 28–31. 21. Karpuschewski B., Knoche H.-J., Hipke M., Beutner M. High performance gear hobbing with powder- metallurgical high-speed-steel. Procedia CIRP , 2012, vol. 1 (1), pp. 196–201.