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K. Sołek and L. Trębacz

References Website http://www.esi-group.com/products/casting/procast Y.-C. Wang, D.-Y. Li, Y.-H. Peng, L.-G. Zhu, Computational modeling and control system of continuous casting process, International Journal of Advanced Manufacturing Technology, 33(1), 1-6 (2007). M. Rywotycki, K. Miłkowska-Piszczek, L. Trębacz, Identification of the boundary conditions in the continuous casting of steel, Proc. 5th Int. Conf. Ciągłe Odlewanie Stali, 106-113 Krynica 2011

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T. Wróbel, J. Szajnar, D. Bartocha and M. Stawarz

References [1] Adamczyk, J. (2004). Engineering of metallic materials . Gliwice: Publishers of Silesian University of Technology. [2] Szajnar, J., Stawarz, M., Wróbel, T., Sebzda, W., Grzesik, B. & Stępień, M. (2010). Influence of continuous casting conditions on grey cast iron structure. Archives of Materials Science and Engineering. 42(1), 45-52. [3] Szajnar, J., Stawarz, M., Wróbel, T. & Sebzda, W. (2010). Laboratory grey cast iron continuous casting line with electromagnetic forced convection

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Elena Valentina Stoian, Vasile Bratu, Cristiana Maria Enescu and Carmen Otilia Rusanescu

, Scientific Bulletin of Valahia University-Materials and Mechanics 15 (12), 28-31, 2017. [10] V.Vrabie, C.Bratu, I.Chira, Tehnologia Elaborării şi Turnării Oţelului, Editura Didactică şi Pedagogică Bucureşti, 1979. [11] S.Mckay, N.S. Hunter, A.S. Normanton, V.Ludlow, P.N. Hewitt, B.Harris, Powder evaluation for continuous casting , Ironmaking and Steelmaking 2002, vol. 29, Nr. 3, p. 189. [12] K. Kim, H. N. Han, T. Yeo, Y. Lee, K. H. Oh, D. N. Lee, Analysis of surface and internal cracks in continuously cast beam blank

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P. Drożdż

REFERENCES [1] T. Pikkarainen, V. Vuorenmaa, I. Rentola, M. Leinonen, D. Porter, Effect of superheat on macrostructure and macrosegregation in continuous cast low-alloy steel slabs. 4th International Conference on Advances in Solidification Processes (ICASP-4), Materials Science and Engineering 11 (2016). [2] Liang Bai, Bo Wang, Honggang Zhong, Jie Ni, Qijie Zhai, Jieyu Zhang, Experimental and Numerical Simulations of the Solidification Process in Continuous Casting of Slab. Metals 6 , 53 (2016). [3] Z. Kudliński, Technologie odlewania stali

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Z. Lipnicki, K. Pantoł and B. Weigand

References [1] R. Grzymkowsk i, B. Mochnack i, Analiza krzepniecia wlewkawprocesie ciagłego odlewania stali, Krzepniecie metaliistopów 2, 69-125 (1980). [2] B. Mochnack i, Application of the BEMfor numerical modeling of continuous casting, Computational Mechanics 18, Springer-Verlag, 62-71 (1996). [3] A.K. Tieu, I.S. Kim, Simulation of the continuous casting process by mathematical model, Int. J. Mech. Sci. 39, 2, 185-192 (1997). [4] E. Majchrzak, B. Mochnacki, M. Dziewonski, M. Jasinski

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M. Rywotycki, K. Miłkowska-Piszczek and L. Trębacz

References Z. Malinowski, M. Rywotycki, T. Telejko, Modeling of heat transfer and fluid flow in continuous casting of steel. 8th ICTP 2005 International Conference on Technology of Plasticity, October 9-13 2005, Verona, Italy, 753-754. B. G. Thomas, Modeling of the continuous casting of steel - past, present and future. Metallurgical Transactions 33B , 12, 795-812 (2002). B. Mochnacki, Zastosowanie metod numerycznych w obliczeniach cieplnych procesu ciągłego odlewania stali

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P. Drożdż

References [1] B. Thomas, Modeling of the Continuous Casting of Steel- Past, Present and Future. Electric Furnace Conference Proceedings. ISS 59 , 3-30 (2001). [2] A. Buczek, A. Burbelko, P. Drożdż, M. Dziarmagowski, J. Falkus, M. Karbowniczek, T. Kargul, K. Miłkowska-Piszczek, M. Rywotycki, K. Sołek, W. Ślęzak, T. Telejko, L. Trębacz, E. Wielgosz, Modelowanie procesu ciągłego odlewania stali -monografia, Radom 2012. [3] E. Brandaleze, L. Santini, C. Gorosurreta, A. Martın, Influence of Carbonaceous Particles on the Melting Behaviour of Mould Fluxes at

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M. Okayasu, S. Wu, T. Tanimoto and S. Takeuchi

. Germany., pp.113-118. [10] Okayasu, M.& Yoshie, S. (2010). Mechanical properties of Al–Si 13 –Ni 1.4 –Mg 1.4 –Cu 1 alloys produced by the Ohno continuous casting process. Mater. Sci. Eng . A 527, 3120-3126. [11] Okayasu, M. & Takeuchi, S. (2014). Mechanical properties and Failure Characteristics of Mg-9%Al-1%Zn alloys: Tensile Properties. Metall. Mat. Trans . A 45, 5767-5776. [12] Okayasu, M., Takeuchi, S. & Ohfuji, H. (2014). Mechanical strength and failure characteristics of cast Mg-9 pct Al-1 pct Zn alloys produced by a heated-mold continuous

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Z. Lipnicki and K. Pantoł

the BEM for numerical modeling of continuous casting, Computational Mechanics 18, Springer- Verlag, 62-71 (1996). [5] A.K. Tieu, I.S. Kim, Simulation of the continuous casting process by mathematical model, Int. J. Mech. Sci..39, 2, 185-192 (1997). [6] E. Majchrzak, B. Mochnacki, M. Dziewoński, M. Jasiński, Identification of boundary heat flux on the continuous casting surface, Archives of Foundary Engineering 8. 105-110 (2008). [7] L. Sowa, A. Bokota, Numerical model of thermal and flow phenomena the process growing

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J. Szajnar, M. Stawarz, T. Wróbel and W. Sebzda

References [1] J. Adamczyk, Engineering of metallic materials, Publishers of Silesian University of Technology, Gliwice, 2004. [2] W. Derda, J. Wiedermann, Some aspects of continuous casting of low carbon microalloyed steels with niobium and titanium, Archives of Metallurgy and Materials 57, 303-310 (2012). [3] K. Janerka, M. Pawlyta, J. Jezierski, J. Szajnar, D. Bartocha, Carburiser properties transfer into the structure of melted cast iron, Journal of Materials Processing Technology 214, 794-801 (2014