Obrabotka Metallov 2014 No. 3

ОБРАБОТКА МЕТАЛЛОВ № 3 (64) 2014 20 МАТЕРИАЛОВЕДЕНИЕ References 1. Thomas W.M., Nicholas E.D., Needham J.C., Murch M.G., Temple-Smith P., Dawes C.J. Friction Stir Butt Welding. International Patent Application PCT/GB92/02203 and GB Patent Application 9125978.8, UK Patent Office, London, December 6, 1991. 2. Mishra R.S., Ma Z.Y. Friction stir welding and processing. Materials Science and Engineering: R: Reports, 2005, vol. 50, no. 1-2, pp. 1-78. doi: 10.1016/j.mser.2005.07.001 3. Shtrikman M.M. Current state and development of friction stir welding. Pt. 3. Industrial application of friction stir welding. Welding International, 2008, vol. 22, iss. 11, pp. 806-815. doi: 10.1080/09507110802593620 4. Bondar M.P., Psakhie S.G., Dmitriev A.I., Nikonov A.Yu. On the Conditions of Strain Localization and Microstructure Fragmentation under High-Rate Loading, Physical Mesomechanics, 2013, vol. 16, iss. 3, pp. 191- 199. doi: 10.1134/S1029959913030028 5. Stephen Leon J., Jayakumar V. Investigation of mechanical properties of aluminium 6061 alloy friction stir welding. American Journal of Mechanical Engineering and Automation, 2014, vol. 1, no. 1, pp. 6-9. 6. Nandan R., DebRoyT. Bhadeshia H.K.D.H. Recent advances in friction-stir welding Process, weldment structure and properties. Progress in Material Science, 2008, vol. 53, iss. 6, pp. 980-1023. doi: 10.1016/j.pmatsci.2008.05.001 7. Murr L.E., Liu G., McClure J.C. Dynamic recrystallization in friction-stir welding of aluminium alloy 1100. Journal of Materials Science Letters, 1997, vol. 16, iss. 22, pp. 1801-1803. doi: 10.1023/A:1018556332357 8. FrolovV.A., KonkevichV.Yu., Predko P.Yu., Belotserkovets V.V. Svarka treniem s peremeshivaniem termicheski uprochnyaemogo splava V95 sistemy Al-Zn-Mg-Cu [Friction stir welding of the heat-treatable alloy В95 of the Al- Zn-Mg-Cu system]. Svarochnoe Proizvodstvo – Welding International , 2013, no. 3, pp. 21-26 (in Russian). 9. Schneider J.A., Nunes A.C. Characterization of Plastic Flow and Resulting Microtextures in a Friction Stir Weld. Metallurgical and Materials Transactions: B, 2004, vol. 35, pp. 777-783. doi: 10.1007/s11663-004-0018-4 10. Mahoney M.W., Rhodes C.G., Flintoff J.G., Bingel W.H., Spurling R.A. Properties of Friction-Stir-Welded 7075 T651Aluminum. Metallurgical and Materials Transactions: A, 1998, vol. 29, iss. 7, pp. 1955-1964. doi: 10.1007/ s11661-998-0021-5 11. Rubtsov V.E., Tarasov S.Yu., Kolubaev A.V. One-dimensional model of inhomogeneous shear in sliding. Physical Mesomechanics, 2012, vol. 15, iss. 5-6, pp. 337-341. doi: 10.1134/S1029959912030174 12. Kolubaev A.V., Tarasov S.Yu., Sizova O.V., Kolubaev E.A., Ivanov Yu.F. The evolution of the surface layers on metals in sliding friction. Journal of Friction and Wear, 2007, vol. 28, iss. 6, pp. 514–520. doi: 10.3103/ S1068366607060050 13. Pavlova V.I., Alifirenko E.A., Osokin E.P. Issledovanie temperaturno-vremennykh uslovii svarochnogo nagreva, struktury i svoistv metalla stykovykh soedinenii iz alyuminievo-magnievogo splava, vypolnennykh svarkoi treniem s peremeshivaniem [Research of temperature-time conditions of welding heating, structure and properties of metal for edges joints of aluminium-magnesian alloy fulfilled with welding by friction with hashing]. Voprosy Materialovedeniya ( Problems of Materials Science ) – Inorganic Materials: Applied Research , 2009, no. 4 (60), pp. 74-88 (in Russian). 14. Lookin V.I., Ioda Ye.N., Bazeskin A.V., Lavrenchook V.P., Kotelnikova L.V., Oglodkov M. S. Povyshenie nadezhnosti svarnykh soedinenii iz vysokoprochnogo alyuminievo-litievogo splava V-1461 [Reliability improvement of the welded joints from the high-strength aluminium-lithium alloy V-1461 (B-1461)]. Svarochnoe Proizvodstvo – Welding International , 2010, no. 11, pp. 14-17 (in Russian). 15. Pugacheva N.B., Pavlyshko S.V., Trushina E.B., Zamyatin A.N.. Issledovanie massoperenosa pri tribologicheskom vzaimodeistvii legirovannykh stalei [Investigation of mass transfer during tribological interaction of alloyed steels]. Trenie i Iznos – Journal of Friction and Wear , 2012, vol. 33, no. 3, pp. 265-274 (in Russian). Funding This work was supported by project No. III.23.2.4 Basic Research Program III.23.2 SB RAS for 2013-2016., with the financial support of the Ministry of Education and Science (contract No. 02.G25.31.0063) as part of the RF Government Decree No. 218 and RFBR grant No. 14-08-31662. Received 23 June 2014 Revised 23 July 2014 Accepted 25 July 2014

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