How to cite this paper
Ablyaz, T., Muratov, K., Ushomirskaya, L., Zarubin, D & Sidhu, S. (2019). Electrolytic plasma polishing technique for improved surface finish of ED machined components.Engineering Solid Mechanics, 7(2), 131-136.
Refrences
Abliaz, T. R., Khanov, A. M., & Khurmatullin, O. G. (2012). Sovremennye podkhody k tekhnologii elektroerozionnoi obrabotki materialov [Modern approaches to technology of electroerosive processing of materials]. Perm': Izdatel'stvo Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta.
Ablyaz, T.R. (2016). Roughness of the machined surface in wire EDM. Russian Engineering Research, 36(8), 690-691.
Ablyaz, T. R., & Zhurin, A. V. (2016). Influence of wire-cut electrical discharge machining on surface quality. Russian Engineering Research, 36(2), 156-158.
Ablyaz, T.R., & Borisov, D.A. (2017). The influence of the roughness of the working surface of the tool electrode on the productivity of the electroerosive treatment of steel 38х2Н2МА. STIN, 3, 19-22.
Ablyaz, T.R., Simonov, M.Y., Schlykov, E.S., & Muratov, K.R. (2016). Surface Analysis of Bimetal After EDM Machining Using Electrodes with Different Physical and Mechanical Properties. Research Journal of Pharmaceutical, Biological and Chemical Sciences, 7(5), 974-981.
Bains, P. S., Sidhu, S. S., & Payal, H. S. (2016). Fabrication and machining of metal matrix composites: a review. Materials and Manufacturing Processes, 31(5), 553-573.
Dey, S., & Roy, D.C. (2013). Experimental Study Using Different Tools. International Journal of Modern Engineering Research (IJMER), 3(3), 1263-1267.
Duradzhi, V.N., Bryantsev, I.V., & Tokarov, A.K. (1979). Investigation of erosion of the anode under the action of an electrolytic plasma on it. Elektronnaya Obrabotka Materialov, 5, 15-19.
Janmanee, P., & Muttamara, A. (2010). Performance of Difference Electrode Materials in Electrical Discharge Machining of Tungsten Carbide. Energy Research Journal, 1(2), 87-90.
Kulikov, I.S., Vaschenko, S.V., & Kamnev, A.Ya. (2010). Electrolyte-plasma treatment of materials. Minsk, Belarus: Science.
Ojha, K., Garg, R.K., & Singh, K.K. (2010). MRR improvement in sinking electrical discharge machining: a review. Journal of Materials Research and Technology, 9, 709-739.
Patent: Method of electrolytic-plasma polishing of parts made of stainless steels (RU 2461667). (n. d.).
Shabgard, M. (2014). Experimental investigation into the EDM process of γ –TiAl/M. Turkish Journal of Engineering & Environmental Sciences, 38, 231-239.
Tsai, H. (2003). The properties and characteristics of the new electrodes based on Cr-Cu for EDM machines. International Journal of Machine Tools & Manufacture, 43(3), 245-252.
Ushomirskaya, L.A., Novikov, V.I., & Folomkin, A.I. (2012). Formation of the gas anode shell and its influence on the possibility of electrolyte-plasma treatment of complex surfaces. Metalloobrabotka: Scientific and Production Journal, 3(69), 11-14.
Zarubin, D.A., & Ushomirskaya, L.A. (2016). Automation of processes of electrolytic-plasma processing of spatially complex surfaces of conductive samples by the method of controlled jet irrigation. In Modern high-efficiency technologies and equipment in machine building.
Zhurin, A. V. (2005). Metody rascheta tekhnologicheskikh parametrov i elektrodov-instrumentov pri elektroerozionnoy obrabotke [Methods of Calculation of Technological Parameters and Tool Electrode in EDM Process. Diss. Kand.(Tech.)].
Ablyaz, T.R. (2016). Roughness of the machined surface in wire EDM. Russian Engineering Research, 36(8), 690-691.
Ablyaz, T. R., & Zhurin, A. V. (2016). Influence of wire-cut electrical discharge machining on surface quality. Russian Engineering Research, 36(2), 156-158.
Ablyaz, T.R., & Borisov, D.A. (2017). The influence of the roughness of the working surface of the tool electrode on the productivity of the electroerosive treatment of steel 38х2Н2МА. STIN, 3, 19-22.
Ablyaz, T.R., Simonov, M.Y., Schlykov, E.S., & Muratov, K.R. (2016). Surface Analysis of Bimetal After EDM Machining Using Electrodes with Different Physical and Mechanical Properties. Research Journal of Pharmaceutical, Biological and Chemical Sciences, 7(5), 974-981.
Bains, P. S., Sidhu, S. S., & Payal, H. S. (2016). Fabrication and machining of metal matrix composites: a review. Materials and Manufacturing Processes, 31(5), 553-573.
Dey, S., & Roy, D.C. (2013). Experimental Study Using Different Tools. International Journal of Modern Engineering Research (IJMER), 3(3), 1263-1267.
Duradzhi, V.N., Bryantsev, I.V., & Tokarov, A.K. (1979). Investigation of erosion of the anode under the action of an electrolytic plasma on it. Elektronnaya Obrabotka Materialov, 5, 15-19.
Janmanee, P., & Muttamara, A. (2010). Performance of Difference Electrode Materials in Electrical Discharge Machining of Tungsten Carbide. Energy Research Journal, 1(2), 87-90.
Kulikov, I.S., Vaschenko, S.V., & Kamnev, A.Ya. (2010). Electrolyte-plasma treatment of materials. Minsk, Belarus: Science.
Ojha, K., Garg, R.K., & Singh, K.K. (2010). MRR improvement in sinking electrical discharge machining: a review. Journal of Materials Research and Technology, 9, 709-739.
Patent: Method of electrolytic-plasma polishing of parts made of stainless steels (RU 2461667). (n. d.).
Shabgard, M. (2014). Experimental investigation into the EDM process of γ –TiAl/M. Turkish Journal of Engineering & Environmental Sciences, 38, 231-239.
Tsai, H. (2003). The properties and characteristics of the new electrodes based on Cr-Cu for EDM machines. International Journal of Machine Tools & Manufacture, 43(3), 245-252.
Ushomirskaya, L.A., Novikov, V.I., & Folomkin, A.I. (2012). Formation of the gas anode shell and its influence on the possibility of electrolyte-plasma treatment of complex surfaces. Metalloobrabotka: Scientific and Production Journal, 3(69), 11-14.
Zarubin, D.A., & Ushomirskaya, L.A. (2016). Automation of processes of electrolytic-plasma processing of spatially complex surfaces of conductive samples by the method of controlled jet irrigation. In Modern high-efficiency technologies and equipment in machine building.
Zhurin, A. V. (2005). Metody rascheta tekhnologicheskikh parametrov i elektrodov-instrumentov pri elektroerozionnoy obrabotke [Methods of Calculation of Technological Parameters and Tool Electrode in EDM Process. Diss. Kand.(Tech.)].