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A. Cwudziński

.D. Morales, S. Lopez-Ramirez, J. Palafox-Ramos, D. Zacharias, Ironmaking Steelmaking 28 , 33 (2001). [15] R.K. Singh, A. Paul, K. Ray, Scand. J. Metall. 32 , 137 (2003). [16] S. Lopez-Ramirez, J. De J. Barreto, P. Vite-Martinez, J.A. Romero Serrano, C. Duran-Valencia, Metall. Mater. Trans. B 35B , 957 (2004). [17] L. Zhang, Steel Res. 76 , 784 (2005). [18] T.-H. Shih, W.W. Liou, A. Shabbir, Z. Yang, J. Zhu, Comput. Fluid 24 , 227 (1995).

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D.-J. Kim, K.M. Kim, J.H. Shin, Y.M. Cheong, E.H. Lee, G.G. Lee, S.W. Kim, H.P. Kim, M.J. Choi, Y.S. Lim and S.S. Hwang

REFERENCES [1] Flow accelerated corrosion in power plants, EPRI report, TR-106611-R1, Palo Alto, CA, 1998. [2] J. Robertson, Corrosion Science 29 , 1275 (1989). [3] D.J. Kim, H.C. Kwon, H.P. Kim, Corrosion Science 50 , 1221 (2008). [4] D.J. Kim, H.C. Kwon, H.W. Kim, S.S. Hwang, H.P. Kim, Corrosion Science 53 , 1247 (2011). [5] S.Y. Kang, D.W. Lee, J. Korean Power Metallurgy Institute, 21 , 260 (2014). [6] J.-P. Lee, J.-H. Hong, D.-K. Park, I.-S. Ahn, J. Korean Power Metallurgy Institute, 22 , 52 (2015). [7] L

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A. Cwudziński

REFERENCES [1] W. Derda, J. Wiedermann, Archiv. of Metall. and Mater. 57 , 303-310 (2012). [2] A. Sorek, Z. Kudliński, Archiv. of Metall. and Mater. 57 , 371-377 (2012). [3] A. Burbelko, J. Falkus, W. Kapturkiewicz, K. Sołek, P. Drożdż, M. Wróbel, Archiv. of Metall. and Mater. 57 , 379-384 (2012). [4] M. Rywotycki, K. Miłkowska-Piszczek, L. Trębacz, Archiv. of Metall. and Mater. 57 , 385-393 (2012). [5] D. Mazumdar, R.I.L. Guthrie, ISIJ Int. 35 , 1-20 (1995). [6] M. Chen, N. Wang, Y. Yao, J. Geng, K. Xiong, Steel Res. Int

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A. Cwudziński

References J. Madias, D. Martin, M. Ferreyra, R. Villoria, A. Garamendy, ISIJ Int. 39 , 8, 787 (1999). R. Moravec, L. Valek, J. Pys, The Conference Proceedings, 1 st International Conference SteelSim 2005, Brno, Czech Republic, 107, (2005). R.D. Morales, M. Diaz-Cruz, J. Palafox-Ramos, S. Lopez-Ramirez, J. de J. Barreto-Sandoval, Steel Res. 72 , 1, 11, (2001). L. Zhong, L. Li, B. Wang, M. Jiang, L. Zhu, L. Zhang, R. Chen, Steel Res. 77 , 2, 103, (2006

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T. Merder, M. Warzecha and P. Warzecha

References [1] G. Luo-Fang, L. Hong, L. Hai-Tao, W. Yao, S. Wen-Chen, J. of Iron and Steel Research Int. 20, 11, 7-12 (2013). [2] L. Zhong, B. Li, Y. Zhu, R. Wang,W. Wang, X. Zhang, ISIJ Int. 47, 1, 88-94 (2007). [3] J. Pieprzyca, Metalurgia 52, 2, 157-160 (2013). [4] M. Warzecha, T. Merder, Metalurgia, 52, 2, 153-156 (2013). [5] C.Y. Wen, L.T. Fan, Models for flow systems and chemical reactions, Dekker, New York, (1975). [6] T. Merder, J. Pieprzyca, Steel Res. Int

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J. Gonzalez-Trejo, C.A. Real-Ramirez, R. Miranda-Tello, F. Rivera-Perez and F. Cervantes-de-la-Torre

). [7] B.Z. Shen, H.F. Shen, B.C. Liu, ISIJ Int. 47 , 427-432 (2007). [8] B.Z. Shen, H.F. Shen, B.C. Liu, Ironmak Steelmak. 36 , 33-38 (2009). [9] H.F. Shen, B.Z. Shen, B.C. Liu, Steel Res. Int. 78 , 531-535 (2007). [10] R. Miranda, M.A. Barron, J. Barreto, L. Hoyos, J. Gonzalez, ISIJ Int. 45 , 1626-1635 (2005). [11] R.D. Dauby, H. Pierre, AIST Transactions 8 , 152-160 (2011). [12] T.M.J. Kalter, S. Kenjeres, C.R. Kleijn, International Journal of Heat and Fluid Flow 2012). [13] Y. Chen, L. Zhang, S. Yang, J. Li, JOM 64 , 1080

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M. Ramli and E. Dawood

; 21, 2007, pp. 1149-1154. Balaguru, P. N. & Shah, S. P.: Fiber Reinforced Cement Composites. 1992, McGraw-Hill Inc., New York. Banthia, N. & Sappakittipakorn, M.: Toughness enhancement in steel fiber reinforced concrete through fiber hybridization. Cem. & Conc. Research; 37, 2007, pp.1366-1372. Balendran, R. V., Zhou, F. P., Nadeem, A. & Leung, A. Y.: Influence of steel fibers on strength and ductility of normal and lightweight high-strength concrete. Building & Environment, 37, 2007, pp

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J. Pieprzyca, T. Merder, M. Saternus and K. Michalek

. Dolezel, Journal of Computational and Applied Mathematics 270 , 231-240, (2014). [14] L. Blacha, Metalurgia próżniowa, Wyd. Pol. Śl., Gliwice 2004. [15] L. Müller, Zastosowanie analizy wymiarowej w badaniach modeli, Biblioteka Naukowa Inżynieria, Warszawa 1983. [16] T. Merder, J. Pieprzyca, Steel Res. Int. 83 , 11, 1029-1038 (2012). [17] C.J. Su, J.M. Chou, S.-H. Liu, Mat. Trans. 50 , 6, 1502-1509, (2009). [18] V. Seshadri, C.A. da Silva, I.A. da Silva, E. da Silva Araúj o Júnior, Technol. Metal. Mater. Miner. 9 , 1, 22-29, (2012

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D. Kuc and J. Gawąd

References M.A. Miodownik, A review of microstructures computer models used to simulate grain growth and recrystallization in aluminum alloys, J. of Light Metals 2 , 125-135 (2002). R. Ding, X.Z. Guo, Coupled quantitative simulation of microstructural evolution and plastic flow during dynamic recrystallization Acta Mater. 49 , 3163-3168 (2001). R.L. Goetz, Z. Seetharaman, Modelling dynamic recrystallization using cellular automata, Scripta Mater. 38 , 405-410 (1998

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J. Pieprzyca, P. Warzecha, T. Merder and M. Warzecha

REFERENCES [1] K. Jeżowiecka-Kabsch, H. Szewczyk, Mechanika płynów, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław (2001). [2] T.F. Irvine, M. Capobiancji, New-Newtonian flow. The CRC Handbook of Thermal Engineering, ed. Kreith R. CRC Press, Boca Raton (2000). [3] A. Atherton Mark, A. Bates Ronald, P. Wynn Henry, Dimensional analysis using toric ideals: primitive invariants, PLOS ONE, 9 , Article Number: e112827, Published: DEC 1 (2014). [4] T. Merder, J. Pieprzyca, Steel Res. Int. 83 , 11, 1029-1038 (2012). [5] T. Merder, M