Russian University of Transport (MIIT)
This article discusses the results of experimental studies on the processing of aluminum alloys AS12 and AS7 by combined methods of shaping, including both mechanical turning and milling, with the imposition of an electrochemical effect on each of them. The study confirms the effectiveness of the combined effect on low-melting, hard-to-cut metals and their alloys
aluminum, AS7, AS12, milling, finishing, roughness, combined machining, quality parameters, modes, cutting fluid
1. Breev, S.V., Serebrennikova, A.G. High-speed milling of difficult-to-machine materials. Features of machinability during milling // Scientific notes. IV-1(16). 2013. - PP. 59-66.
2. Kulikov, M.Yu., Inozemtsev, V.E., Nechaev, D.A. Improving the method of finishing anode-mechanical processing of non-ferrous metals and their alloys // Science-intensive technologies in mechanical engineering 2014/11. - Pp. 19-22.
3. Suslov, A.G. The quality of the surface layer of machine parts. - M.: Mashinostroenie, 2000. - 320 p.
4. Interactive catalog of cutting tools http://www.goodtool.ru/obr_mat/al.htm
5. Gruby, S.V., Zaitsev, A.M. Improving the efficiency of milling technology for parts from advanced aluminum alloys using modern CNC equipment. Nauka i obrazovanie. FGBOU VPO "MSTU im. N.E. Bauman". Email FS No. 77 - 48211. 12/2013.
6. Stepanov, A.V. High-speed milling in modern production. CAD/CAM/CAE Observer 4 (13) 2003. Electronic edition.
7. Valetov, V.A., Murashko, V.B. Fundamentals of instrumentation. St. Petersburg, 2006. - 180 p.
8. Kalpakjian, S. (1997) Manufacturing Process for Engineering Materials, 3rd ed., Addison-Wesley, Menlo Park, CA. ISBN 0-201-82370-5.
9. Jain, R.K. (2000) Production Technology, 15th ed., Khanna Publishers, Delhi. P. 62-67.
