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References xx [1] K.E. OCZOŚ, A. KAWALEC: Light metals forming. PWN, Warsaw 2012. [2] A. GÓRECKI: General technology. Basics of mechanical technology. WSiP, Warsaw 2009. [3] K.E. OCZOŚ: Efficient machining of magnesium alloys (in Polish). Mechanik , (2000)7, 467-474. [4] K.E. OCZOŚ: Extension of the magnesium alloys application range (in Polish). Mechanik , (2009)5-6, 386-400. [5] W. ADAMSKI: Manufacturing development strategies in aviation industry. Advances in Manufacturing Science and Technology, 34 (2010)3, 73-84. [6] R. RUSINEK, K. KECIK, J. WARMINSKI

References 1. Ghali, E. Corrosion resistance of Aluminium and Magnesium Alloy , 1 st ed.; Wiley: United States, 2010. 2. Kainer, K. U.; et al. Shreir´s corrosion , 3 rd ed.; Elsevier: UK, 2010. 3. Gray, J. E.; Luan, B. Protective coatings on magnesium and its alloys - a critical review. Journal of Alloys and Compounds 2002 , 336 , 88-113. 4. Song, G.; Atrens, A. Corrosion Mechanisms of Magnesium Alloys. Advanced Engineering Materials 1999 , 1 , 11-33. 5. Fontana, M. G.; Greene, N. D. Corrosion engineering , 2 nd ed.; McGraw-Hill: United States, 1978

phosphate coating on AZ91D magnesium alloy. Surface and Coatings Technology 2006 , 200, 20-21, 5956-5962. 14. KOSÁR, P. Niklové povlaky hořčíkových slitin. Brno: Vysoké učení technické v Brně, Fakulta chemická, 2013. 88 s. Vedoucí diplomové práce Ing. Martin Zmrzlý, Ph.D..4 15. MIKULČÁK, J., J. CHARVÁT a M. MACHÁČEK. Matematické, fyzikální a chemické tabulky a vzorce. Havlíčkův Brod: Prometheus, spol. s.r.o., 2005. ISBN 80-7196-264-3.

. Vnútorné tlmenie materiálov , Žilina: EDIS. 5. S challer R., F antozzi G., G remaud G. 2001. Mechanical spectroscopy Q -1 2001 with applications to materials science. Switzerland Trans Tech Publications, pp. 683. 6. Z hang Z., Z eng X., D ing W. 2005. The influence of heat treatment on damping response of AZ91D magnesium alloy. In: Materials Science and Engineering, vol. 392, issues 1 – 2 pp. 150 - 155.

). Oxidizing electrolysis method for obtaining a ceramic coating at the surface of a metal, US, 6808613, 2004-10-26. 4. Yeung, W.K., Reilly, G.C., Matthews, A., et al. (2013). In vitro biological response of plasma electrolytically oxidized and plasma-sprayed hydroxyapatite coatings on Ti-6Al-4V alloy. J. Biomed. Mater. Res. B Appl. Biomater. 101(6), 939–949. DOI: 10.1002/jbm.b.32899. 5. Hornberger, H., Virtanen, S., Boccaccini, A.R. (2012). Biomedical coatings on magnesium alloys – a review, Acta Biomater. 8(7), 244–255. DOI: 10.1016/j.actbio.2012.04.012. 6. Cakmak, E

LITERATÚRA 1. Brunelli K. et al. Effect of HCl pre-treatment on corrosion resistence of cerium-based conversion coatings on magnesium and magnesium alloy, Corrosion Science 2005 , 47, 989-1000. 2. Cui X. et al. Structure and corrosion resistence of modified mirco-arc oxidation coating on AZ31B magnesium alloy, Transaction of Nonferrous Metals Society of China 2016 , 26, 814-821. 3. Han B. et al. Fabrication of a novel Mg-RE (Nd,Ce) intermetallic compound coating by molten salt diffusion and its effect on corrosion resistance of magnesium alloys, Journal of

References 1. Mordike, B.; et al.: Magnesium. Materials Scence and Engineering 2001, 302 (1), 37-45. 2. Eliezer, D.; et al.: Magnesium science technology and applications, Advanced Performance Materials 1998, 3, 201-212. 3. Mathieu, S.; et al.: A corrosion study of the main constituent phases of AZ 91magnesium alloys. Corrosion Science 2003, 45, 2741-2755. 4. Liu, Ch.; et al.: Study on biodegradation of the second phase Mg17Al12 in Mg-Al-Zn Alloys: In vitro experiment and thermodynamic calculation. Materials Science and Engineering 2013, C 35, 1-7. 5. Dai, J.; et

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 of the Formability


The aim of the present study has been designing and putting in operation of a stand for Sonic Testing equipped with modern and readily available digital devices and with the author’s own computer program, which enables recording and analysis of acoustic fields and of the frequency of free vibrations in selected castings made from Fe and Al alloys, and specifically also from magnesium alloys, and mastering the technique of making such tests along with their practical application in assessment of the quality of castings made from magnesium alloys and investment castings made from carbon steel.

REFERENCES 1. Fridrich, H. E. and Mordike, B. L. Magnesium Technology, Springer, Germany, 2006. 2. Mordike, B. L. and Ebert, T. Magnesium properties – applications – potential, Materials Science and Engineering A 2001 , 302, 37–45. 3. Meyers, M. A.; Mishra, A.; Benson, D. J. Mechanical properties of nanocrystalline materials. Prog. Mater. Sci. 2006 , 51, 427–556. 4. Polmear, I. Light Alloys: From Traditional Alloys to Nano-crystals, USA, Elsevier, 2006. 5. Avedesian, M.; Baker, H. ASM Specialty Handbook: Magnesium and Magnesium Alloys, ASM International, USA