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Florina Violeta Anghelina, Dan Nicolae Ungureanu, Carmen Popa, Elena Valentina Stoian, Ileana Nicoleta Popescu, Cristiana Maria Enescu and Constantin C. Anghelina

REFERENCES [1] Sadki, M.L.Hattali, M. A. Bradai, R. Youne, N. Mesrati, Characterization and Modeling of the Mechanical Behavior of Aeronautical Alloy Based Composite, Universal Journal of Chemistry 4(1) (2016) 10-19. [2] P. Rambabu,N Eswara Prasad et all, Aluminium Alloy for Aerospace Application in: Prasad N.E. and Wanhill R.J.H.(Eds.), Aerospace Materials and Material Technologies, Springer Science, Singapore, 2017, pp 29-52. [3] encea, Bazele incercarilor spectrochimice de emisie optica prin scanteie si arc electric, Ed. Printech, Bucuresti

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Jeoom Kee Paik

References AA, 2005. Aluminum design manual, Table 3.3-2. The Aluminum Association, Arlington, Virginia, USA. ABS, 2006. Rules for material and welding, Part 2 Aluminum and fiber reinforced plastics. Chapter 5, Appendix 1, Table 2, American Bureau of Shipping, Houston, USA. ALCAN Aerospace, Transportation and Industry, 2004.Aluminium and the Sea. Paris, France AWS, 2004. Guide for aluminum hull welding, AWS D3.7. American Welding Society, USA. Biallas, G. Braun, R. Dalle Donne, C. Staniek, G. and

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Wojciech Jurczak

References [1] Darowicki K., Orlikowski J., Aratunow A., Jurczak W., Passive layer cracking studies performed on A95056 aluminium alloy by means of dynamic electrochemical impedance spectroscopy and acoustic emission, ‘Electrochemical and Solid-State Letters’, 2005, Vol. 8, B55-B59. [2] Darowicki K., Orlikowski J., Aratunow A., Jurczak W., The effect of tensile stresses on aluminium passive layer durability, ‘Electrochimica Acta’, 2006, Vol. 51, pp. 6091-6096. [3] Darowicki K., Orlikowski J., Zieliński A

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A. Kłyszewski, J. Żelechowski, A. Frontczak, P. Rutecki, W. Szymanski, Z. Zamkotowicz and M. Nowak

References [1] H.W. Swidersky, High Temperature Brazing and Diffusion Bonding (LO¨ T 2001), 6th International Conference on Brazing, Aachen, Germany, (2001). [2] W.S. Miller, et al., Recent development in aluminium alloys for the automotive industry, Materials Science and Engineering A 280, 37-49 (2000). [3] Aluminium Brazing with NOCOLOK R , 7 Steps to Successful Aluminium Brazing, Solvay Fluor, http://www.solvaychemicals.com. [4] K. Allen, Solving the Problems Inherent to Torch Brazing

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K. Solek and S. Szczepanik

References [1] D. Weiss, M. Black, The Use of High Pressure Direct Squeeze Casting for Semi-Solid Processing of Aluminum Base Nano Composites. Solid State Phenomena, Semi-Solid Processing of Alloys and Composites XII, 72-76 (2013). [2] Ł. Rogal, J. Dutkiewicz, H.V. Atkinson, L. Lityńska- Dobrzyńska, T. Czeppe, M. Modigell, Characterization of semi-solid processing of aluminum alloy 7075 with Sc and Zr additions. Material Science and Engineering A 580, 362-373 (2013). [3] J. Dutkiewicz, L. Rogal, K. Solek, A

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B. Pawłowska and R.E. Śliwa

. [8] I. L. Perlin, Tieorija priessowanija mietałłow, Izd. Mietałłurgija, Moskwa 1964. [9] J. Chodorowski, A. Ciszewski, T. Radomski, Materiałoznawstwo lotnicze, Oficyna Wydawnicza PW, W-wa 2003. [10] A. Gontarz, Wpływ parametrów kucia na wybrane własności stopu aluminium PA6, Rudy i Metale Nieżelazne 44, 613-616 (1997). [11] A. Bylica, Materiałoznawstwo - laboratorium, Wydawnictwo UR, Rzeszów 2005 [12] M. Hatherly, Deformation at high strains, Strength of Metals and Alloys, Proceedings of the 6th

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A. Krajewski, W. Włosiński, T. Chmielewski and P. Kołodziejczak

-intensity ultrasonic-wave emission on the weldability of aluminum alloy 7076-T6”, MaterialsLetters 57, 2447-2454 (2003). [8] H. Dong, L. Yang, C. Dong, and S. Kou, “Improving arc joining of Al to steel and Al to stainless steel”, Materials Scienceand Engineering A 534, 424-435 (2012). [9] K. Balasubramanian, “Studies on the effect of vibration on hot cracking and grain size in AA7075 aluminum alloy welding”, Int. J. Engineering Science and Technology 3, 1 (2011). [10] L. Qingmei, Z. Yong, S. Yoling, Q. Feipeng, and Z. Qijie

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A. Tofil, J. Tomczak and T. Bulzak

. Manuf. Sci. Eng. 123 , 647-653 (2001). [5] A. Tofil, Research of new splitting process of pipe billets from 2618A aluminium alloy basing on cross-wedge rolling. Arch. Metall. Mater. 58 , 725-729 (2013). [6] J. Bartnicki, Z. Pater, The aspects of stability in cross-wedge rolling processes of hollowed shafts, J. Mater. Process. Technol. 155-156 , 1867-1867 (2004). [7] T. Bulzak, J. Tomczak, Z. Pater, Przegląd metod kształtowania rowków wiórowych wierteł krętych ze stali narzędziowych, Przegląd Mechaniczny 6 , 15-21 (2013). [8] M.T. Wang, X

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W. Szymański, M. Bigaj, M. Gawlik, M. Mitka and M. Szymanek

References [1] L. Katgerman, F. Dom, Rapidly solidified aluminium alloys by meltspinning, Mat. Sc. Eng A375-377, 1212-1216 (2004). [2] Grant EP/E040608/1 “Development of Bulk Nanostructured Aluminium Alloys for High Strength Applications” (University of Oxford) Ol. Juli 2007- 31 December 2010. [3] B. Pucun, Microstructure and mechanical properties of a large billet of spray formed AlZnMgCu alloy with high Zn content Mat. Sc. Eng 2009. [4] F. Palm, Hypereutectic high Strength AlMgSc profile

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W.K. Krajewskia, K. Haberl-Faerberb, J. Buras and P.K. Krajewski

. 11, issue 1, pp. 65-68. [6] Krajewski, W.K. & Haberl, K. (2011). The effect of Ti on High-Zinc Al cast alloys structure and properties. Acta Metallurgica Slovaca , vol. 17, issue 2, pp. 123-128. [7] Buras, J. (2011). The influence of grain refinement on damping properties of selected aluminium zinc cast alloys. PhD thesis supervised by W.K. Krajewski, AGH University of Science and Technology - Faculty of Foundry Engineering, Krakow 2011 (in Polish).