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L.A. Dobrzański and M. Król

References [1] Guangyin, Y., Manping, L., Wenjiang, D. & Inoue, A. (2003). Mechanical properties and microstructure of Mg-Al- Zn-Si-base alloy. Materials Transactions. 44(4), 458-462. [2] Watanabe, H., Mukai, T., Kamado, S., Kojima, Y. & Higashi, K. (2003). Mechanical properties of Mg-Y-Zn alloy processed by equal-channel-angular extrusion. Materials Transactions. 44(4), 463-467. [3] Mordike, B. L. (2002). Development of highly creep resistant magnesium alloys. Mater. Sci. Eng. A324, 103

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T. Rzychoń and B. Dybowski

References [1] H. Friedrich, B.L. Mordike, Magnesium Technology, Berlin 2006. [2] A.A. Luo, Int. Mater. Reviews 49, (1), 13-30 (2004). [3] K.N. Braszczyńska-Malik, J. Alloys Compd. 477, 870-876 (2009). [4] B. Dybowski, A. Kiełbus, R. Jarosz, J. Paśko, Solid State Phenom. 211, 65-70 (2013). [5] B. Płonka, J. Kut, P. Korczak, M. Lech-Grega, M. Rajda, Arch. Metall. Mater. 57, (2), 619-626 (2012). [6] F. Mirshahi, M. Meratian, Mater. Des. 33, 557-562 (2012

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B. Dybowski, A. Kiełbus and R. Jarosz

of heat treatment on susceptibility to hot cracking of magnesium aloy ENMCMgRE3Zn2Zr. Archives of Metallurgy and Materials. 55(1), 69-78. [4] Mola, R. (2013). Fabrication and microstructure of layers containing intermetallic phases on magnesium. Archives of Foundry Engineering . 13(1), 99-102. DOI: 10.2478/afe-2013-0019. [5] Rzychoń, T., Szala, J. & Kiełbus A. (2012). Microstructure, castability, microstructural stability and mechanical properties of ZRE1 magnesium alloy. Archives of Metallurgy and Materials . 57(1), 245-252, DOI

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B. Dybowski, A. Kiełbus and R. Jarosz

Engineering A315 (2001) 81-88 [5] P. Lyon, I Syed, S. Haeney, Elektron 21 - An aerospace magnesium alloy for sand cast & investment cast applications, Magnesium, Edited by K.U. Kainer, WILEY-VCH (2007) 20-25 [6] J. Adamiec, Repairing the WE43 magnesium cast alloys, Solid State Phenomena, 176 99-106 (2011). [7] T. Rzychoń, J. Szala, A. Kiełbus, Microstructure, castability, microstructural stability and mechanical properties of ZRE1 magnesium alloy, Archives of Metallurgy and Materials 57, 1 245-252 (2012) [8] H

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C. Rapiejko, B. Pisarek and T. Pacyniak

of AZ91 magnesium. Materials Science and Engineering A 587, 262-267 (2013). [4] Hüseyin Sevi k, Sehzat Açıkgöz, S. Can Kurnaz, The effect of tin addition on the microstructure and mechanical properties of squeeze cast AM60 alloy. Journal of Alloys and Compounds 508(1), 110-114 (2010). [5] S. Candan, M. Unal, E. Koc, Y. Turen, E. Can- dan, Effects of titanium addition on mechanical and corrosion behaviours of AZ91 magnesium alloy. Journal of Alloys and Compounds 509(5), 1958-1963 (2011). [6] N. Balasubramani, A

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T. Rzychoń and B. Adamczyk-Cieślak

, 254-262 (2012). [17] D. Hardie, R.N. Parkins, Philos. Mag. 4, 815 (1959). [18] T. Rzychon, A. Kiełbus, G. Dercz, Solid State Phenom. 163, 169-172 (2010). [19] J. Bai, Y. Sun, F. Xue, S. Xue, J. Qiang, T. Zhu, J Alloy. Compd. 437, 247-253 (2007) [20] J. Bai, Y. Sun, S. Xun, F. Xue, T. Zhu, Mater. Sci. Eng. A 419, 181-188 (2006). [21] T. Rzychon, J. Szala, T. Kukiełka, Solid State Phenom. 197, 137-142 (2013).

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J. Iwaszko, K. Kudła, K. Fila and M. Strzelecka

Szajnara, Katowice-Gliwice 2009. [23] L.A. Dobrzański, T. Tański, L. Čižek, Z. Brytan, Structure and properties of magnesium cast alloys, Journal of Materials Processing Technology 192-193 , 567-574 (2007).

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C. Rapiejko, B. Pisarek, E. Czekaj and T. Pacyniak

References [1] G.Gumienny, Carbidie Bainitic and Ausferritic Ductile Cast Iron. Archives of Metallurgy and Materials 58(4), 1053-1058 (2013). [2] G.Gumienny, Bainitic-martensitic nodular cast iron with carbides, Archives of Foundry Engineering 10, 2, 63-68 (2010). [3] S. P ietrowski, B. P isarek, Computer-aided technology of melting high-quality metal alloys, Archives of Metallurgy and Materials 52, 3, 481-486 (2007). [4] B.Pisarek, Influence of the technology of melting and inoculation

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D. Miara, A. Pietras and K. Mroczka

References M. St. Węglowski, A. Pietras, A. Węglowska, Effect of Welding parameters on mechanical and macrostructural properties of al. 2024 joints produced by friction stir welding. Journal of KONES and Transport 16 , 1 (2009). M.J. Rusell, S.A. Lockyer, Mechanical Properties of Friction Stir Welds in Magnesium Alloys. TWI, Cambridge UK, (2000). J. Adamiec, L. Zadroga, T. Chabko, Structure and properties of the AZ91 magnesium alloy welds created with the use of Friction Stir

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R. Mola, T. Bucki and A. Dziadoń

References [1] Zhang, H.T. & Song, J.Q. (2011). Microstructure evolution of aluminum/magnesium lap joints welded using MIG process with zinc foil as interlayer. Mater. Lett. 65, 3292-3294. [2] Borrisutthekul, R., Miyashita, Y. & Mutoh, Y. (2005). Dissimilar material laser welding between magnesium alloy AZ31B and aluminum alloy A5052-O. Sci. Tech. Adv. Mater. 6(2), 199-204 [3] Morishige, T., Kawaguchi, A., Tsujikawa, M., Hino, M., Hirata, T. & Higashi, K. (2008). Dissimilar welding of Al and Mg alloys by FSW