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M. Król, T. Tański, G. Matula, P. Snopiński and A.E. Tomiczek

References [1] W. Martienssen, H. Warlimont, Springer Handbook of Condensed Matter and Materials Data, Berlin Heidelberg 2005. [2] T. Rzychoń, B. Dybowski, A. Kiełbus, Arch. Metall. Mater. 60, (1), 167-170 (2015). [3] L.A. Dobrzański, T. Tański, Influence of Aluminium Content on Behaviour of Magnesium Cast Alloys in Bentonite Sand Mould, in: Z. Gosiewski, Z. Kulesza (Ed.), Mechatronic Systems and Materials III 2009, Solid State Phenomena (2009). [4] Y. Ali, D. Qiu, B. Jiang, F. Pan, M.-X. Zhang

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A. Turowska, J. Adamiec and T. Rzychoń

, Magnesium Technology: metallurgy, design, data, applications, Springer-Verlag, Berlin Heidelberg, 2006. [6] J. Adamiec, S. Roskosz, R. Jarosz, Repair of Magnesium Alloy Castings By Means of Welding and Pad Welding, Journal of Achievements in Materials and Manufacturing Engineering 22, 1, 21-24 (2007). [7] J. Adamiec, Spawalnosc odlewniczych stopów magnezu [Weldability of Cast Magnesium Alloys], Wyd. Pol. Sl., Gliwice 2010. [8] E. Tasak, A. Ziewiec, Spawalnosc materiałów konstrukcyjnych, tom1 Spawalnosc stali [Construction

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T. Rzychoń, B. Dybowski and A. Kiełbus

References [1] B. Jing, S. Yangshan, X. Shan, X. Feng, Z. Tianbai, Mater. Sci. Eng. A 419 , 181-188 (2006). [2] E. Aghion, B. Bronfin, F. Von Buch, H. Friedrich, S. Schumann, JOM 55(11) , 30-33 (2003). [3] K.U. Kainer, Magnesium Alloys and Technologies, Wiley-VCH 2003. [4] ASM Speciality Handbook, Magnesium and magnesium alloys, ASM International 1999. [5] T. Rzychoń, J. Szala, A. Kiełbus, Arch. Metall. Mater. 57 , 254-262 (2012). [6] L. Wojnar, K.J. Kurzydłowski, J. Szala, Praktyka analizy obrazu, Polskie Towarzystwo Stereologiczne, Kraków

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M. Król, T. Mikuszewski, D. Kuc, T. Tański and E. Hadasik

. Krupinski, B. Krupinska, Z. Rdzawski, K. Labisz, T. Tanski, J. Therm. Anal. Calorim. 120 (3), 1573-1583 (2015). [18] M. Król, T. Tański, P. Snopiński, B. Tomiczek, J. Therm. Anal. Calorim. 127, 299-308 (2017), DOI 10.1007/s10973-016-5845-4. [19] R. Schmid-Fetzer, J. Gröbner, Metals 2 (3), 377-398 (2012). [20] N.C. Goel, J.R. Cahoon, Bulletin of Alloy Phase Diagrams 11 (6), 528-546 (1990), DOI:10.1007/BF02841712. [21] X. Guanglong, Z. Ligang, L. Libin, D. Yong, Z. Fan, X. Kai, L. Shuhong, T. Mingyue, J. Zhanpeng, Journal of Magnesium and

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M. Kawalec

References [1] Fraś, E. & Guzik, E. (1980). Primary microstructure of the Fe-C-V alloys. Archivess of Metallurgy . 25 (4), 757-772. [2] Fraś, E. (2003). Crystallization of metals . Warsaw: WNT. [3] Kopyciński, D. & Piasny, S. (2012). Influence of tungsten and titanium on the structure of chromium cast iron. Archives of Foundry Engineering . 12(1), 57-60. [4] Kawalec, M. & Fraś, E. (2008). Structure, Mechanical Properties and Wear Resistance of Highvanadium Cast Iron. ISIJ

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K.N. Braszczyńska-Malik and E. Przełożyńska

.F., Li, B., Wang, X.H., Su, W. & Han, H. (2009). Refinement effect of cerium, calcium and strontium in AZ91 magnesium alloy. J. Mater. Proc. Techn. 209, 3999-4004. [5] Sumida, M. (2008). Microstructure development of sand-cast AZ-type magnesium alloys modified by simultaneous addition of calcium and neodymium. J. Alloys Compd. 460, 619-626. [6] Shepeleva, L. & Bamberger, M. (2006). Microstructure of high pressure die cast AZ91D modified with Ca and Ce. Mater. Sci. Eng. A . 425, 312-317. [7] Zhang, J., Liu, S., Leng, Z., Zhang, M., Meng, J. & Wu

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M. Szymanek, B. Augustyn, D. Kapinos, S. Boczkal and J. Nowak

References [1] P.J. Meschter, J.E. O ’neal, Rapid solidification processing of magnesium-lithium alloys, Metallurgical Transactions A 15, 1, 237-240 (1984). [2] L.A. Dobrzanski, Materiały inzynierskieiprojektowanie materiałowe, WNT, Warszawa 2006, pp. 642-658. [3] Z. Górny, J. Sobcza k, Nowoczesne tworzywa odlewnicze na bazie metali niezelaznych, Kraków 2005. [4] P.J. Meschter, Microstructures and properties of rapidly solidified Mg-10Al and Mg-12.5Al-1.5Si alloys, Metallurgical Transactions A 18

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T. Rzychoń, J. Szala and A. Kiełbus

Alloys, ASM Interantional, USA 1999. www.magnesium-elektron.com(DS455.pdf) M. Podosek, G. W. Lorimer, Archives of Metallurgy 45 , 1, 47-55 (2000). Magnesium Technology. Metallurgy, Design Data, Applications, Eds. H. E. Friedrich, B. L. Mordike, Springer-Verlag Berlin Heidelberg 2006. I. P. Moreno, T. K. Nandy, J. W. Jones, J. E. Allison, T. M. Pollock, Scripta Materialia 48 , 1029-1034 (2003). J. Szala, Application of computer-aided image

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Liviu Marsavina, Lucian Rusu, Dan Andrei Șerban, Radu Marcel Negru and Anghel Cernescu

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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K.N. Braszczyńska-Malik

References [1] Mordike, B.L. & Ebert, T. (2001). Magnesium propertiesapplications- potential. Materials Science and Engineering A . Vol. 302, 37÷45. [2] Wu, D.H. & Chang, M.S. (2004). Use of Taguchi method to develop a robust design for the magnesium alloy die casting process. Mater. Sc. Eng., A379 366-371. [3] El-Mahallawy, N.A, Taha, M.A., Pokora, E. & Klein F. (1998). On the influence of the process variables on the thermal conditions and properties of high pressure die-cast magnesium