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References [1] Dziubińska, A., Gontarz, A., A new method for producing magnesium alloy twin-rib aircraft brackets , Aircraft engineering and Aerospace Technology, Vol. 87, No. 2, pp. 180-188, 2015. [2] Dziubińska, A., Gontarz, A., Forming of flat parts with ribs from magnesium alloy , Aircraft engineering and Aerospace Technology, Vol. 86, No. 4, pp. 356-360, 2014. [3] Liu, J., Zhao, Y., Song, L., Xiang, Z., Study on the AZ31B magnesium alloy in the application on high-speed trains , Advanced Engineering Materials II, Advanced Materials Research, Vol. 535

Reference Avedesian, M.M., Baker, H., 1999. Magnesium and Magnesium Alloys , Materials Park OH: ASM International, 298. Braszczyńska-Malik, K.N., 2009. Discontinuous and continuous precipitation in magnesium aluminium type alloys , Journal of Alloys and Compounds, 477, 870-876. Göken, J., Swiostek, J., Letzig, D., Kainer, K.U., 2005. Damping measurements of the magnesium wrought alloys AZ31, AZ61 and AZ80 after in-direct and hydrostatic extrusion , Materials Science Forum, 482, 387-390. Hao, G.L., Han, F.S., Wang, Q.Z., Wu, J., 2007. Internal friction peaks

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. 2761-2766, (2014). 7. Mohd S., Mutoh Y., Otsuka Y., Miyashita Y., Koike T., Suzuki T., Scatter analysis of

, F.; Hadzima, B. Infl uence of shot peening on corrosion properties of biocompatible magnesium alloy AZ31 coated by dicalcium phosphate dihydrate (DCPD). Materials Science and Engineering: C 2014, 39, 330-335. 4. Witte, F.; Kaese, V.; Haferkamp, H.; Switzer, E.; Lindenberg, A. M.; Wirth, C. J.; Windhagen, H. In vivo corrosion of four magnesium alloys and the associated bone response. Biomaterials 2005, 26, 3557-3563. 5. Li, W.; Guan, S.; Chen, J.; Hu, J.; Chen, S.; Wang, L.; Zhu, S. Preparation and in vitro degradation of the composite coating with high adhesion

-155. 5. Cha, P.R., et al. Biodegradability engineering of biodegradable Mg alloys: Tailoring the electrochemical properties and microstructure of constituent phases, Scientific Reports 2013 , 3, 1-6. 6. Ishizaki, T., Shigematsu, I., Saito, N. Anticorrosive magnesium phosphate coating on AZ31 magnesium alloy, Surface and Coatings Technology 2009 , 203, 2288-2291. 7. Cui, F., et al. Calcium phosphate coating on magnesium alloy for modification of degradation behavior, Frontiers of Materials Science 2008 , 2, 143-148. 8. Shadanbaz, S., Dias, G.J. Calcium phosphate

. Investigation on the Potential of Magnesium Alloy AZ31 as a Bone Implant. Materials Science Forum , 2007 , 546–549, 421–424. https://doi.org/10.4028/www.scientific.net/MSF.546-549.421 . 4. Ren, Y.; Huang, J.; Zhang, B.; Yang, K.: Preliminary Study of Biodegradation of AZ31B Magnesium Alloy. Frontiers of Materials Science in China , 2007 , 1 (4), 401–404. https://doi.org/10.1007/s11706-007-0073-2 . 5. Hiromoto, S.; Inoue, M.; Taguchi, T.; Yamane, M.; Ohtsu, N.: In vitro and in vivo Biocompatibility and Corrosion Behaviour of a Bioabsorbable Magnesium Alloy Coated

Reference BAKER, H., A vedesian , M.M. 1999. ASM Specialty Handbook: Magnesium and Magnesium Alloys , ASM International. B olibruchová , D., P astirčák , R. S ládek , A. 2005. Zlievarenská metalurgia-neželezné kovy , EDIS Žilina. C hen , L., Y uan , F., J iang , P., X ie , J., W u , X. 2017. Mechanical properties and deformation mechanism of Mg-Al-Zn alloy with gradient microstructure in grain size and orientation , Materials Science and Engineering: A, 694, 98-109, DOI: 10.1016/j.msea.2017.04.005 G u , X.N., Z hou , W.R., Z heng , Y.F., C heng , Y., W ei , S

References 1. Zhang, P., & Lindemann, J. (2005). Influence of shot peening on high cycle fatigue properties of the high-strength wrought magnesium alloy AZ80. Scripta Mater ., 52 (6), 485–490. DOI: 10.1016/j.scriptamat.2004.11.003. 2. Zhang, P., & Lindemann, J. (2005). Effect of roller burnishing on the high cycle fatigue performance of the high-strength wrought magnesium alloy AZ80. Scripta Mater ., 52 (10), 1011–1015. DOI: 10.1016/j.scriptamat.2005.01.026. 3. Fouad, Y. (2011). Fatigue behavior of a rolled AZ31 magnesium alloy after surface treatment by EP

31 magnesium alloy. Transactions of Nonferrous Metals Society of China 2011 , 12, 2790-2797.+ 6. Riedel, W. Electroless Nickel Plating, ASTM International Metals Park 1991 , 320 s. ISBN 0-904477-12-6. 7. Kosár, P. Niklové povlaky hořčíkových slitin, 2013, 88 s. 8. Panja, B. et al. Tribological Behavior of Electroless Ni–P Coating in Brine Environment, Journal of The Institution of Engineers (India): Series D, 2014 , 153-159. 9. Doedge, E. et al. Precision forging of magnesium alloys, Wire, 2002 , 5, 46-52. 10. Zhu, S. et al. Effect of rare earth and Mn

LITERATÚRA 1. Antonova O. A. et al. Microstructure and texture of pure magnesium after room-temperature lateral extrusion, Materials Science and Engineering A 2017 , 26, 319-329. 2. Nový F. et al. Very high cycle fatigue behaviour of as-extruded AZ31, AZ80, and ZK60 magnesium alloys, International Journal of Materials and Research 2009 , 100, 288-291. 3. Homma T., Kunito N., Kamado, S. Fabrication of extraordinary high-strength magnesium alloy by hot extrusion, Scripta Materialia 2009 , 61, 644-647. 4. Fintová S. et al. Improvement of electrochemical corrosion