| References |
Axer, H., Aufwand (1953) Leitsung und wirtschaftlichkeit neuzelicher werkzeugmaschinen, , IV aachener werkzeugmaschinen Kolloquium, Essen:; Hehenkamp, T., Untersuchungen uber den elektrisch kompensierbaren Verschleiss von Drehmeisseln aus Hartmetall (1958) Archiv fur das Eisenhuttenwesen, 29 (4); Troitskii, O.A., The electroplastic effect in metals (1984) Strenght Mater, 16 (2), pp. 277-281; Bobrovskiy, V.A., (1970) Electrodiffusion wear of the cutting tool, , Mashinostroenie, Moscow: [in Russian]; Bobrovskiy, V.A., Method of increasing tool life (1968) Patent SU 206972 Bulletin, p. 1; Bredell, L.J., The influence of thermo electric current on the wear of tungsten carbide tools (1983) Proceedings of the international conference on the science of hard materials, held August 23-28, , pp 723–734; Postnikov, S.N., Electrophysical and electrochemical phenomena in friction, cutting and lubrication (1978) Van Nostrand Reinhold Co; Postnikov, S.N., The role of electrical phenomena in friction and cutting of metals (1967) Fiziko-Khimicheskaya Mekhanika Materialov, 3 (3), pp. 313-318; Shan, H.S., Pandey, P.C., Wear of cutting tools: thermo-electric effects (1975) Wear, 32, pp. 167-179; Solonenko, V.G., Electric insulation as method of improvement in serviceability of the cutting tools (2009) Technol Met, 2, pp. 18-25. , [in Russian]; Solonenko, V.G., Electric insulation as method of improvement in serviceability of the cutting tools (2009) Technol Metals, 3, pp. 9-15. , [in Russian]; Tanaka, R., Lin, Y., Hosokawa, A., Ueda, T., Yamada, K., Influence of additional electrical current on machinability of BN free-machining steel in turning (2009) J Adv Mech Des Syst Manuf, 3 (2), pp. 171-178; Uehara, K., Sakurai, M., Ikada, T., On the problem of thermoelectric current in metal cutting (1992) Ann CIRP, 41 (1), pp. 75-78; Kornilov, I.I., Zabrodskaya, M.N., Boriskina, N.G., Brynza, A.P., Kinetics of long titanium oxidation (1977) Metal Sci Heat Treat, 5, pp. 49-51; Samsonov, G.V., Borisova, A.G., Zhidkova, T.G., (1978) Physical and chemical properties of oxides, , Metallurgy, Moscow:; Garmata, V.A., Petrunko, A.N., Galitsky, N.V., (1983) Titanium, , Metallurgy, Moscow: [in Russian]; Kolachev, B.A., Eliseev, Y.S., Bratukhin, A.G., (2001) Titanium alloys in the structures and manufacturing of aircraft engines and aerospace equipment, , Moscow Aviation Institute Publishing, Moscow: [in Russian]; Tetyukhin, V.V., (2005) New Titanium Alloys of VSMPO-AVISMA Corporation. Forging and stamping: prospects and development: a collection of scientific papers, pp. 412-417. , Yekaterinburg, Urals State Technical University, UPI: [in Russian]; Gorynin, I.V., Chechulin, B.B., (1990) Titanium in machine building, , Mashinostroenie, Moscow: [in Russian]; Bataronov, I.L., (2000) Mechanisms of influence of the electric field and electric current on the plastic deformation of metals. Doctor of physical and mathematical science thesis, , Voronezh State Technical University, Voronezh: [in Russian]; Bataronov, I.L., Mechanisms of the electro plasticity (1999) Soros Educ J, pp. 93-99; Dubinko, V.I., Klepikov, V.F., Kinetic mechanism of the electroplastic effect in metals. Bulletin of the Russian Academy of Sciences (2008) Physics, 72 (9), pp. 1188-1189; Troitskii, O.A., Tyapkin, A.V., Stashenko, V.I., Sukhov, A.V., Investigations of the metal cutting by drilling while simultaneous action of the pulse current on the workpiece (2010) Metal week in Moscow: conference proceedings, Moscow, , pp 642–661; Moder, N.I., Levin, I.V., Using method of nuclear reactions in studying of thin gas-saturated layers in titanium sheets of grade2 and Ti-6Al-4V (2003) Titanium, pp. 49-56; Andreev, S.V., Golubev, V.I., Kalashnik, D.V., Medison, V.V., Muryzhnikov, S.M., Patent RU 2456125 C2. Method of cutting metallic and current-conducting materials by current conducting cutting tool. Patent RU 2456125 C2 (2012) Bulletin, p. 10 |