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L. Richtárech, D. Bolibruchová, M. Brůna and J. Caiss

adding iron to the AlSi7Mg0.3 (EN AC 42 100, A356) alloy. Manufacturing Technology, Vol.13, No.3, 276-281, ISSN 1213-2489 [4] Brůna, M. & Kucharčík, L. (2013). Prediction of the porosity of Al alloys. Manufacturing technology. Vol. 13, no. 3, 296-302, ISSN 1213-2489

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D. Bolibruchová and L. Richtárech

iron to the AlSi7Mg0.3 (EN AC 42 100, A356) alloy. Manufacturing Technology, Vol.13, No.3, p. 276-281. [4] Taylor, J.A. (2004). The effect of iron in Al-Si casting alloys, 35 th Australian Foundry Institute National Conference, Adelaide, South Australia, pp. 148-157 [5] Tillová, E., Chalupová, M., Hurtalová, L., Ďurníková, E. (2011). Quality control of microstructure in recycled Al-Si cast alloys. Manufacturing Technology, Vol. 11, No. 11, p. 70-76 [6] Brůna, M., Kucharčík, L. (2013). Prediction of the porosity of Al

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M. Vicen, P. Fabian and E. Tillová

of Al-Si alloys . Zilina, 191 p. ISBN 978-80-554-0088-4. [5] Ďuriníková, E. (2012). The effect of selected factors on the structure and properties of the secondary aluminum alloy AlZn10Si8Mg, dissertation, University of Zilina, 125 p. [6] Brezinová, J., Draganovská, D., Guzanová, A., Vojtko, M. (2014). The Wear Evaluation of Blasting Machine’s Blades, In Key Engineering Materials, Vol. 635, p. 190-193, ISBN 978-3-03835-344-7, ISSN 1662-9795. [7] Pastirčák, R. (2014). Effect of low pressure application during solidification on microstructure of

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D. Bolibruchová, L. Richtárech, S. M. Dobosz and K. Major-Gabryś

, Manufacturing Technology 13 (3), 276-281 (2013). [7] E. Tillova, M. Chalupova, Structural analysis of Al-Si cast alloys, 191. EDIS, Žilina, (2009). [8] D. Bolibruchová, M. Zihalova, Manufacturing technology 13 (3), 289-296 (2013). [9] D. Bolibruchová, M. Brůna, Manufacturing Technology 13 (1), (2014). [10] R. Pastirčák, Manufacturing Technology 14 (3), 397-402 (2015). [11] J. Petrik, J. Horvath, Annals of faculty engineering Hunedoara 9 (3), 401-405 (2011). [12] S. Seifeddine

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B. P. Pisarek, C. Rapiejko, T. Szymczak and T. Pacyniak

. Archives of Metallurgy and Materials, 58(4), 1053-1058. [10] Fintová, S. Konečná, R. & Nicoletto, G. (2009). Statistical Description of Largest Pore Size in Modified Al-Si Alloys. Materials Engineering. 16(3), 24-28. [11] Fintová, S., Konečná, R. & Nicoletto, G. (2013). Microstructure, Defects and Fatigue Behavior of Cast AlSi7Mg Alloy. Acta Metallurgica Slovaca. 19(3), 223-231. [12] Chen, R., Shi, Y., Xu, Q. & Liu, B. (2014). Effect of cooling rate on solidification parameters and microstructure of Al−7Si−0.3Mg0.15Fe

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R. Podprocká and D. Bolibruchová

References [1] Taylor, J.A. (2012). Iron-containing intermetallic phase in Al-Si based casting alloys. Procedia Materials Science . 1, 19-33. [2] Shabestari S.G., 2004. The effect of iron and manganese on the formation of intermetallic compounds in aluminium-silicon alloys. Materials Science and Engineering A. 383, 289-298. [3] Dinnis, C.M. et al. (2005). As-cast morphology of iron-intermetallics in Al-Si foundry alloys. Scripta Materialia . 53(8), 955-958. [4] Tillová, E., Chalupová, M. (2009). Structural analysis of Al-Si cast

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E. Czekaj, J. Zych, Z. Kwak and A. Garbacz-Klempka

References [1] Knych, T., Uliasz P., Wiecheć J. & Podeszwa K. (2014). Research on the Selection of Parameters of Solution Heat Treatment of the Commercial Casting Aluminium Alloy AlSi7Mg0.3 Type. Archives of Foundry Engineering. 14(special 4), 59-62. [2] Alexopoulos, N.D. & Pantelakis, S.G. (2004). Quality Assessment of Artificially Aged A357 Aluminum Alloys Cast Ingots by Introducing Approximate Expressions of the Quality Index Q D . Metallurgical and Materials Transactions A . 35A(10), 3079-3089. [3] Drouzy, M., Jacob, S. & Richard, M

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D. Bolibruchová and L. Richtárech

References [1] Brůna, M. & Kucharčík, L. (2013). Prediction of the porosity of Al alloys. Manufacturing technology. 13 (3). 296-302, ISSN 1213-2489 [2] Pastirčák, R. & Krivoš, E. (2013). Effect of opening material granularity on the mould properties and the quality of casting made by patternless process technology. Manufacturing technology. 13 (1). 92-97, ISSN 1213-2489 [3] Hurtalová,L. & Tillová, E. (2013). Elimination of the negative effect of Fe-rich intermetallicphases in secondary (recycled) aluminium cast

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R. Podprocká, D. Bolibruchová and M. Chalupová

. 148-157). [5] Bolibruchová, D. & Žihálová, M. (2014). Vanadium influence on iron based intermetallic phases in AlSi6Cu4. Archives of Metallurgy and Materials, 59 (3), 1029-1032. [6] Shabestari, S.G. (2002). Effect of Mn and Sr on intermetallics in Fe-rich eutectic Al-Si alloy. International Journal of Cast Metals Research. [7] Fortini, et al. (2016). On influence of Mn and Mg additions on tensile properties, microstructure and quality index of the A356 aluminum foundry alloy. 21st European Conference on Fracture

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M. Tupaj, A.W. Orłowicz, M. Mróz, A. Trytek and O. Markowska

Metallkunde . 94(12), 1320-1326. [10] Horng, J.H., Lui, T.S. & Chen, L.H. (2001). Effect of area fraction and morphology of silicon particles on fracture behavior of hypoeutectic Al-Si alloys under resonant vibration. Int. J. Cast Metals Res . 14, 121-130. [11] Orłowicz, A., Tupaj, M. & Mróz, M. (2008). Mechanical properties of AlSi7Mg alloy modified with sodium. Archives of Foundry Engineering . 8(1), 241-244. [12] Orłowicz, A.W., Tupaj, M. & Mróz, M. (2006). Selecting of heat treatment parameters for AlSi7Mg0,3 alloy. Archives of Foundry. 6(22), 350