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A. Małachowska, M. Stachowicz and K. Granat

Foundry Engineering. 9 (1), 51-56. Stachowicz, M., Granat, K & Nowak, D. (2010). Application of microwaves for innovative hardening of proecological sandmixes with water-glass used in manufacture of cast-steel castings. Archives of Mechanical Engineering and Technology. 30 (1), 19-27. (in Polish). Retrieved 15.06.2011, from http://wichary.eu/ Retrieved 15.06.2011, from http

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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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A. Kmita and A. Roczniak

. & Stypuła, B. (2014). Utilisation of nanoparticles in technologies of producing castings for the needs of power engineering. Nanomaterials and Energy. 3, 53-60. [8] Zhang, H., Dunphy, D.R., Jiang, X. et all. (2012). Pathway dependence of amorphous silica nanoparticle toxicity: colloidal vs pyrolytic. Journal of the American Chemical Society. 134(38), 15790-804. [9] Nowicki, P. & Kmita, A. (2012) Meaning of wax surface modification in investment moulding technology. Zeszyty Studenckich Prac Naukowych “SFEROID” . 12, 137-140. (in Polish). [10] Hutera

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D. Nowak

References [1] Lewandowski, J.L. (1997). Materials for casting moulds , Akapit, Cracow, 1997 (in Polish). [2] Thomas, H.E. (1978). Microwave technologies and microwave equipment , Handbook, WNT, Warsaw (in Polish). [3] Pigiel, M., Granat, K., Nowak, D. & Florczak W. (2006). Utilization of microwave energy in foundry processes, Archives of Foundry Engineering , No. 21, Vol. 6 (in Polish). [4] Granat, K., Nowak, D., Pigiel, M., Stachowicz, M. & Wikiera R. (2008). Measurement of standing

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B. Gal and K. Granat

References [1] Wang, J., Fan, Z., Zan, X. & Pan, D. (2009). Properties of sodium silicate bonded sand hardened by microwave heating. China Foundry. 6(3), 191-196. [2] Stachowicz, M., Granat, K. & Nowak, D. (2013). Dielectric hardening method of sandmixes containing hydrated sodium silicate. Metalurgija. 52(2), 169-172. [3] Kaczmarska, K., Grabowska, B. & Drożyński, D. (2016). Potential of the application of the modified polysaccharides water solutions as binders of moulding sands. Metalurgija. 55(1), 15

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M. Stachowicz, B. Opyd and K. Granat

References [1] W. Nosal, Tribology. Introduction to problems of friction, wear and lubrication, Editorial Office of Poznan University of Technology, Poznan 2012, (in Polish). [2] Z. Lawrowski, Tribology. Friction, wear and lubrication, Ed-itorial Office of Wroclaw University of Technology, Wroclaw 2009, (in Polish). [3] Z. Rymuza, Tribology of sliding polymers, Scientific and Tech-nical Publishing, Warsaw 1986, (in Polish). [4] L. Lewandowski, Polymeric materials for casting moulds, Akapit, Kraków 1997, (in Polish). [5] J. Napiórkowski, Agricultural

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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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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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B. Opyd and K. Granat

References [1] Lewandowski, L. (1997). Materials for molds. Kraków: Akapit. (in Polish) [2] Pacyniak, T. (2013). Loss foam method. Selected problems. Łódź: Editorial Office of Lodz University of Technology (in Polish). [3] Seeger, K. (2012). Application of aqueous coatings at manual moulding. Foundry Review. 62 (7-8), 322-326. ISSN 0033-2275 (in Polish). [4] Nwaogu, U.C. & Tiedje, N.S. (2011). Foundry coating technology: a review. Material Sciences and Application. 2, 1143-1160. DOI:10.4236/msa