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Fatigue Analysis of Magnesium Alloys Components for Car Industry

numerical study of the effects of porosity on fatigue crack initiation of HPDC magnesium AM60B alloy, J Alloy Compd, Vol. 470, pp. 202-13 (2008). 5. Horstemeyer MF, Yang N, Gall K, McDowell D, Fan J, Gullet PM. High cycle fatigue mechanisms in a cast AM60B magnesium alloy, Fatigue Fract Eng Mater Struct, Vol. 25, pp. 45-56, (2002). 6. Ding, H.-L., Zhang, Y.-W., Kamado, S., Effect of finish-rolling conditions on mechanical properties and texture characteristics of AM50 alloy sheet, Trans. Nonferrous Met. Soc. China, Vol. 24, pp. 2761

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Effect of Selected Friction Stir Welding Parameters on Mechanical Properties of Joints

welding on microstructure of 7075 aluminium”, Scripta Materialia 36: 69–75, 1997. 17. R.S. Mishra, H. Sidhar, “Friction stir welding of 2xxx aluminum alloys including Al-Li alloys”, Elsevier, 2017. 18. R. Kaibyshev, “Dynamic recrystallization in magnesium alloys”, in: C. Bettles, M. Barnett, eds. Advances in Wrought Magnesium Alloys, Fundamentals of Processing, Properties and Applications, Woodhead Publishing, Cambridge: 186-225, 2012. 19. Y.H. Wang, J.M. Kang, Y. Peng, H.W. Zhang, T.S. Wang, X. Huang, “Observation of simultaneous increase in strength

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Numerical Simulation By Means Of Finite Element Method Of Plastic Deformation Processes Of Lightweight Metallic Materials

6. References 1. Kulekci M. K., Magnesium and its alloys applications in automotive industry, International Journal of Advanced Manufacturing Technology, Springer-Verlag, London, Volume 39, Issue 9-10, (2007) pp 851-865 2. Ambrogio G., Bruni C., Bruschi S., Filice L., Ghiotti A., Simoncini M., Characterization of AZ31B magnesium alloy formability in worming conditions, The International Journal of Material Forming, Springer/ESAFORM, Volume 1, Issue 1 Supplement (2008) pp 205-208/ 3. Girjob C., Bologa O., Racz G., Biris C. Experimental Research

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Comparative Study About Different Experimental Layouts Used on Single Point Incremental Forming Process

. Investigations on peen forming - 1. On the basic features of this process. Bulletin of the JSME , 22(168), 893-900, (1979). 4. Ambrogio, G., Filice, L., & Manco, G. L. Warm incremental forming of magnesium alloy AZ31. CIRP Annals - Manufacturing Technology , 57(1), 257-260, (2008). 5. Husmann, T., & Magnus, C. S. Thermography in incremental forming processes at elevated temperatures. Measurement: Journal of the International Measurement Confederation , 77, 16-28, (2016). 6. Fan, G., Gao, L., Hussain, G., & Wu, Z. Electric hot incremental forming: A novel

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Identifying Combination of Friction Stir Welding Parameters to Maximize Strength of Lap Joints of AA2014-T6 Aluminum Alloy

parameters on the metallurgical and mechanical properties, Mater. Science and Engineering A, 519 (2009)19-26. [13] Cen Y. C, Nakata K., Friction stir lap joining aluminum and magnesium alloys, Scripta materialia 58 (2008) 433-436. [14] Salari E., Khodabandeh A., Friction stir lap welding of 5456 aluminum alloy with different sheet thickness: process optimization and microstructure evaluation, The Int. Jou of Adv Manu. Tech., 82 (2016) 39-48 [15] Shirazi H., Kheirandish Sh., Safarkhanian M. A, Effect of process parameters on

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