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B. Opyd and K. Granat

References [1] Stachowicz, M., Granat, K. & Nowak, D. (2011). Application of microwaves for innovative hardening of environment-friendly water-glass moulding sands used in manufacture of cast-steel castings. Archives of Civil and Mechanical Engineering . 11(1), 209-219. DOI: 10.1016/S1644-9665(12)60184-8. [2] Grabowska, B. & Holtzer, M. (2007). Application of microwave radiation for crosslinking of sodium polyacrylate/silica gel system used as a binder in foundry sands. Polimery . 52(11/12), 841-847. ISSN: (0032-2725). (in Polish). [3] Wang, J

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St. M. Dobosz, A. Grabarczyk and K. Major-Gabryś

: Stress and Strain in Practice. USA - New York: CRC Press. [12] Jakubski, J. & Dobosz, St.M. (2007). The thermal deformation of core and moulding sands according to the hot distortion parameter investigations. Archives of Metallurgy and Materials. 52(4), 421-427. [13] Dobosz St. M. & Jakubski J. (2001). Hot-distortion - important criterion of estimation of core sand's quality. Archives of Mechanical technology and Automotation. 21(1), 31-36.

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P. Lichy, V. Bednarova and T. Elbel

. Metal Foams [online]. Retrieved September 20. Duocel. ERG, Inc., Oakland, CA. Materials and aerospace corporation. Retrieved February 23 from http://www.ergaerospace.com/index.html Zyrjanova, I. (2011). Lité kovové pěny z Al slitin , Unpublished Master thesis, VŠB-TU Ostrava, FMMI. (in Czech). Cholewa, M. & Dziuba Kaluza, M. (2008). Closed aluminium skeleton casting. Archives of Foundry Engineering. 8 (Special Issue 1), 53-56. Cholewa, M., Dziuba, M., Kondracki

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R. Władysiak and A. Kozuń

). Austenitic Cast Iron Control by TDA Method. Archives of Foundry . 1 (2/2), 400-407. (in Polish). [5] Pietrowski, S. (2001). Silumins , Lodz: LUT Publishing House. (in Polish). [6] Pietrowski, S., Gumienny, G., Pisarek, B. & Władysiak, R. (2005). Monitoring of Production and Quality Control of Casting Alloys with Use of ATD Methods. Archives of Foundry. 5(15), 310-328. [7] Michalski, L. & Eckersdorf, K. (1986): The temperature measurements. Warszawa: WNT. (in Polish). [8] Więcek, B. & De Mey, G. (2011): Infrared Thermovision. Fundamentals and

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I. Vasková, M. Hrubovčáková and M. Conev

References [1] P. Jelínek, Foundry sand - sand mixtures binder system. ISBN 80-7078-326-5, VŠB - TU Ostrava 1996. [2] M. Hrubovčákova, I. Vasková, Possibilities of burrs elimination from cores produced with cold-box-amine technology, Acta metallurgica slovaca 21, 1, 78-85 (2015). [3] I. Vasková, M. Smolková, J. Malik, S. Eperješi, Experience in forming and core mixtures by Alphaset technology, Archives of foundry engineering published quarterly as the organ of the foundry commission of the polish academy of

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S.M. Dobosz, K. Major-Gabryś and M. Hosadyna

, P. (2004) . Binding systems of foundry moulding sands (in Czech), OFTIS Ostrava. ISBN 80-239-2188-6 [13] Major-Gabryś, K. (2007). Moulding sands with water glass having increased knock-out properties (in Polish). Unpublished doctoral dissertation, AGH-University of Science and technology, Krakow. [14] Major-Gabryś, K. & Dobosz, S.M. (2010). Loose selfhardening moulding sands with hydrated sodium silicate and liquid ester hardeners (in Polish). In Committee of Metallurgy of Polish Academy of Sciences, Polish Metallurgy in 2006

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I. Izdebska-Szanda, A. Baliński and M. Angrecki

Chemical Technology, Polish Journal of Chemical Technology. 5 (3), 47. Jelinek P., Skuta R. (2003). Modified sodium silicates - a new alternative for inorganic foundry binders. Materials Enginering 10 (3), 283 (in Czech). Major-Gabryś K. et al. (2012). The influence of Glassex additive on properties of microwave-hardened and self-hardened moulding sands with water glass. Archives of Foundry Engineering. 12 (1), 130-134. Izdebska-Szanda I. (2009). Moulding sand with silicate binder

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Z. Konopka, A. Chojnacki, A. Chojnacki, M. Łągiewka and A. Zyska

below atmospheric pressure. In 11th International Scientific Conference ‘New technologies and achievements in metallurgy and material science’, 20-21 May 2010 (pp. 563-566). Częstochowa: Ed. WIPMiFS. (in Polish). [15] Konopka, Z. & Chojnacki, A. (2011). Structure of the AZ91 alloy pressure castings fabricated of home-scrap containing charge. Archives of Foundry Engineering. 11(2), 61-64.

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Z. Konopka, A. C. Chojnacki, M. Lagiewka and A. Zyska

Polish). [15] Chojnacki, A., Konopka, Z. (2010). Casting of the AZ91 alloy below atmospheric pressure. In 11th International Scientific Conference ‘New technologies and achievements in metallurgy and material science’, 20-21 May 2010 (pp. 563-566). Częstochowa: Ed. WIPMiFS. (in Polish) [16] Konopka, Z. & Chojnacki, A. (2011) Structure of the AZ91 alloy pressure castings fabricated of home-scrap containing charge. Archives of Foundry Engineering. 11(2), 61-64.

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M. Břuska, J. Beňo, M Cagala and V Jasinková

foundry of the joint-stock company ŠMERAL Brno. Slévárenství. 6. 222-226. Tomáš K. (2000). Utilization of dunite base sand for casting production. Slévárenství. 4. 197-203. Rusín K. et. al. (1991). Slévárenské formovací materiály. Praha. SNTL. 392. Cupák P. & Tomáš K. (2006). Exploitation of negativethermal expansion of the shale sand to decreasing of remanent strength of the mould and core mixtures with sodium silicate binders. Slévárenství. 12. 462