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ОБРАБОТКА МЕТАЛЛОВ № 2 (63) 2014 106 МАТЕРИАЛОВЕДЕНИЕ 9. Chernomas V.V., Salikov S.R., Konovalov A.V. Optimizatsiia tekhnologicheskikh parametrov protsessa po- lucheniia polosy sovmeshchennym metodom lit’ia i deformatsii metalla [Optimization of technological parameters of the process of obtaining a combined method of strip casting and deformation]. Obrabotka metallov ( tekhnologiia, oborudovanie, instrumenty ) – Metal Working and Material Science , 2012, Vol. 2, pp. 7–13. 10. Konovalov A.V., Smirnov A.S. Eksperimental’naia baza i metodika identifikatsii opredeliaiushchikh soot- noshenii uprugoviazkoplasticheskoi sredy [Experimental base and technique of constitutive equation identification of elasticviscoplastic medium]. Fiziko-khimicheskaia kinetika v gazovoi dinamike , 2010, no. 1, pp. 198-201. (In Russ.) Available at: http://chemphys.edu.ru/media/files/010-01-12-028.pdf . (accessed 24.04.2014) 11. Konovalov A.V., Smirnov A.S. Viazkoplasticheskaia model’ soprotivleniia deformatsii stali 08Kh18N10T pri temperature goriachei deformatsii [Viscoplastic model for the strain resistance of 08Kh18N10T steel at a hot- deformation temperature]. Metally – Russian Metallurgy ( Metally ). 2008, no. 2, pp. 55–59. 12. Polukhin P.I., Gun G.Ya., Galkin A.M. Soprotivlenie plasticheskoi deformatsii metallov i splavov. 2-e izd. Spravochnik [Resistance to plastic deformation of metals and alloys. 2 nd ed. Handbook]. Moscow, Metallurgiia Publ., 1983. 352 p. 13. Mostafaei M. A., Kazeminezhad M. Hot deformation behavior of hot extruded Al–6Mg alloy. Materials Science and Engineering: A, 2012, Vol. 535, pp. 216–221. 14. Gorelik S.S., Dobatkin S.V., Kaputkina L.M. Rekristallizatsiia metallov i splavov. 3-e izd [Recrystallization of metals and alloys. 3rd ed.]. Moscow, MISIS, 2005. 432 p. 15. Rokni M. R., Zarei-Hanzaki A., Roostaei A. A., Abedi H. R. An investigation into the hot deformation charac- teristics of 7075 aluminum alloy. Materials & Design, 2011, Vol. 32, no.4, pp. 2339–2344. 16. Mostafaei M. A., Kazeminezhad M. Analyses on the flow stress of an Al-Mg alloy during dynamic recovery. Journal of Materials Engineering and Performance, 2013, Vol. 22, no. 3, pp. 700–705. 17. Zhongjun W., Weiping J., Jianzhong C. Study on the Deformation Behavior of Mg-3.6 % Er Magnesium Alloy. Journal of Rare Earths, 2007, Vol. 25, no. 6, pp. 744–748. 18. Wang C., Xu Y., Han E. Serrated flow and abnormal strain rate sensitivity of a magnesium–lithium alloy. Materials Letters, 2006, Vol. 60, no. 24, pp. 2941–2944. 19. Zhu S. M., Nie J. F. Serrated flow and tensile properties of a Mg-Y-Nd alloy. Scripta Materialia, 2004, Vol. 50, no. 1, pp. 51–55. Funding Work performed within the framework of the inter-regional and inter-departmental Basic Research RAS, integration project institutions Institute of Engineering Science Ural Branch of Russian Academy of Sciences (Project No. 12-C-1-1016) and Institute of Machinery and Metallurgy, RussianAcademy of Sciences (Far Eastern Branch) (Project No. 12-II-RO-03-005). Received 2 April 2014 Revised 5 May 2014 Accepted 7 May 2014

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