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V. A. Grachev and N. D. Turakhodjaev

). Modification of aluminum alloys. In National Research and Practice Conference "Mashinasozlik tarmoklarida talim, fan va ishlab chikarish integratsiyasi" (p. 62-65). Tashkent, Uzbekistan. [18] Turakhodjaev, N.D. (2016). Scientific and technical solutions for getting high qualitative structure during melting operation of aluminium alloy materials. Doctoral dissertation, Tashkent State Technical University, Tashkent, Uzbekistan. [19] Belgium: European Aluminium Association. (2004). Aluminium recycling: The road to high quality products. Retrieved

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K. Pieła, L. Błaz, Z. Sierpinski and T. Forys

). [13] L.F. Mondolfo, Aluminum Alloys: Structure and Properties. Butterworths & Co. (Publ.) Ltd., p. 577 London 1976. [14] L.M. Clarebrough, M.E. Hargreaves, G.W. West, Phil. Mag. 1 , 528 (1956). [15] L.M. Clarebrough, M.E. Hargreaves, G.W. West, Acta Met. 5 , 738 (1957). [16] L.M. Clarebrough, M.E. Hargreaves, M.H. Loretto, G.W. West, Acta Met. 8 , 797 (1960). [17] S. Nebti, D. Hamana, G. Cizeron, Acta Met. Mat. 43 , 3583 (1995). [18] L. Katgerma, D. Eskin, in: Handbook of Aluminum

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Mirela Popescu and Bela Varga

(2006) 251-256 [4] Fan G. J., Choo H., Liaw, Lavernia E. J.: Plastic deformation and fracture of ultrafine-grained Al-Mg alloys with a bimodal grain size distribution Acta Materialia 54 (2006) 1759-1766 [5] Otarawanna S. , Casting of aluminium alloys, Fundamentals of Aluminium Metallurgy: Production, Processing and Applications, Edited by Roger Lumley in Oxford, U.K., 2012. [6] Popescu (Drăgoiu) M, Varga B , Structures of Aluminum Base Alloys Solidified by Vibrations- Advanced Material Research, vol 1128, 2015, pp 88

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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).

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M. Szymanek, B. Augustyn, D. Kapinos, J. Żelechowski and M. Bigaj

References [1] M. Szymanek, B. Augustyn, W. Szymański, D. Kapinos, The Production of Wrought AlSi30Cu1.5Mg1.2Ni1.5Fe0.8 Alloy with Ultrafine Structure. Light Metals 521-5251 (2013). [2] B. Augustyn, M. Szymanek, D. Kapinos, W. Pakieła, Evaluation of Functional Properties of the Rapidly Solidified Cast AlSi30 Alloy as a Material for Transport Applications, Light Metals, 975-980 (2014). [3] M. Szymanek, B. Augustyn, D. Kapinos, S. Boczkal, J. Nowak, Producing Ultrafine Grain Structure in AZ91 Magnesium Alloy Cast

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J. Konieczny, K. Labisz, M. Polok-Rubiniec and A. Włodarczyk-Fligier

REFERENCES [1] P.G. Sheasby, R.Ch. Pinner, The Surface Treatment and Finishing of Aluminum and its Alloys, Materials Park, Ohio & Stevenage, UK: ASM International & Finishing Publications 2001 [2] H. Adelkhani, H. Forati Rad, Iranian Journal of Surface and Engineering 16 , 9-17 (2013) [3] J.G. Castaño, F. Echeverría, Ingeniería & Desarrollo. Universidad del Norte. 28 1-14 (2010) [4] T. Araújo, Faculdade de Engenharia da Universidade do Porto 2012 [5] M. Michalska-Domańska, M. Norek, W.J. Stępniowski, B. Budner, Electrochim Acta

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W. Pakieła, L.A. Dobrzański, K. Labisz, T. Tański, K. Basa and M. Roszak

Number: PL405550-A1, Publ. Date 13 Apr 2015, Method for laser alloying of aluminum substrate and ceramic particles of aluminum alloys, involves providing substrate with laser alloying of aluminum and aluminum alloys ceramic particles, and feeding powder from liquid weld pool, Inventor(s): Janicki D, Tanski T, Labisz K, Pakiela W, Lisiecki A, Patent Assignee: Politechnika slaska, Derwent Primary Accession Number: 2015-30743R, [7] W.S. Miller, Mater Sci Eng, A280 , 37-49, (2000). [8] S. Nayak, Jom-J Min Met Mat S, 56 , (1), 46-48, (2004). [9] D

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W.K. Krajewski, A.L. Greer and P.K. Krajewski

). [4] K. Haberl, W.K. Krajewski, P. Schumacher, Microstructural features of the grain-refined sand cast Al Zn20 alloy, Archives of Metallurgy and Materials 55, 837-841 (2010). [5] W.K. Krajewski, Structure and properties of high-aluminium zinc alloys inoculated with Ti addition (retrospective coverage). Archives of Foundry 5, 231-240 (2005). [6] H.J. Lo, S. Dionne, M. Sahoo, Mechanical and tribological properties of zinc-aluminum metal-matrix composites, Journal of Materials Science 27, 5681-5687 (1992). [7] B.K. Prasad

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W. Ścięźor, G. Kiesiewicz, R. Kowal, K. Franczak, J. Grzebinoga, A. Mamala and P. Kwaśniewski

pod redakcją Janusza Juraszka i Joanny Kurowskiej-Pysz, Bielsko Biała, 147-162, (2012). [4] R. Cook, P.G. Grocock, P.M. Thomas, D.V. Edmonds, J.D. Hunt, Development of the twin-roll casting process, Journal of Material Processing Technology 55 , 76-84 (1995) [5] R.E. Sanders Jr, P.A. Hollinshead, E.A. Simielli, Industrial Development of Non-Heat Treatable Aluminum Alloys, Materials Forum 28 , 53-64 (2004). [6] T. Haga: Development of a twin roll caster for light metals, Journal of Achievements in Materials and Manufacturing Engineering 43 , 393

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Jeoom Kee Paik

structural details. Ship Structure Committee Report, SSC-447, Washington DC. LR, 2008. Lloyd’s Register rules and regulations for the classification of special service craft. Vol.1, Part 2 Rules for the maintenance, testing and certification of materials, Chapter 8 - Aluminum alloys and Part 7 - Hull construction in aluminum, London, UK. Mahoney, M.W. Rhodes, C.G. Flintoff, J.G. Spurling, R.A. and Bingel, W.H., 1998. Properties of friction stir welded 7075-T651 aluminum. Metallurgical and Materials Transactions A, 29A, pp.1955