Research Journal of Applied Sciences
Year:
2014
Volume:
9
Issue:
10
Page No.
691 - 695
References
Altynbayev, A.K. and B.A. Geykin, 2003. Electroerosive methods of processing of deep precision openings in details of aircraft equipment. Metal Working, 6: 47-49.
Blinova, T.A., A.F. Boyko and A.A. Pogonin, 2009. Errors of installation of an electrode tool and its influence on a form of processed surface. Proceedings of the 6th International Scientific and Practical Conference, (SPC'09), Tambov, pp: 276-278.
Boyko, A.F., 1989. The comparative analysis of growth of productivity of process at a high-frequency electroerosive insertion of openings of small diameter. Electron. Process. Mater., 1: 77-81.
Boyko, A.F., 2011. Research of the mechanism of natural evacuation of products of processing at an electroerosive insertion of microopenings. Repair Restorat. Moderniz., 4: 49-51.
Boyko, A.F., Y.M. Brativnik and Y.A. Hukalenko, 1983. The precision machine 04€Π10M for a high-frequency electroerosive insertion of openings of small diameter. Electron. Process. Mater., 3: 76-78.
Korenblyum, M.V., 1980. Fair electro erosive processing with small wear of the tool. Mach. Tool, 6: 31-33.
Lesovik, V.S. and N.V. Chernyshov, 2010. Bases of Scientific Researches: Manual. BSTU Publishing House, Belgorod, Russia, pp: 88.
Pogonin, A.A. and A.D. Korop, 2010. Increase of efficiency of use of the equipment when milling titanic alloy. Bull. BSTU, 3: 97-100.