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M. Rywotycki, Z. Malinowski, J. Giełżecki and A. Gołdasz

- dimensional flow, heat transfer, and solidification of steel in continuous casting mold with electromagnetic brake. Journal of Materials Processing Technology 133, 322-339 (2003). [4] M. Rywotycki, K. Milkowska-Piszczek, L. Trebacz, Identification of the boundary conditions in the continuous casting of steel. Archives of Metallurgy and Materials 57, 385-393 (2012). [5] Z. Malinowski, T. Telejko, B. Hadała, Influence of heat transfer boundary conditions on the temperature field of the continuous casting ingot. Archives of Metallurgy and

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P. Warzecha, A. M. Hutny, M. Warzecha and T. Merder

. 55 , 2604–2608 (2015). [8] A. Cwudziński, Steel Res. Int. 85 , 902-917 (2014). [9] A. Tripathi, A. Kumar, S. K. Ajmani, J. B. Singh, V. V. Mahashabde, Steel Res. Int. 86 , 1558–1573 (2015). [10] C. Chen, G. Cheng, H. Sun, Z. Hou, X. Wang, J. Zhang, Steel Res. Int. 83 , 1141–1151 (2012). [11] H. Lei, Metall. Mater. Trans. B 46, 2408-2413 (2015).

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T. Merder

Int. 72 , 10, 346-352 (2001). [6] M. Warzecha, Metalurgija 50 , 3, 147-150 (2011). [7] A. Cwudziński, J. Jowsa, Archives of Metallurgy and Materials 57 , 1, 297-301 (2012). [8] L. Sowa, A. Bokota, Archives of Metallurgy and Materials 57 , 4, 1163-1169 (2012). [9] J.J. Barreto, M.A. Barron-Meza, R.D. Morales, ISIJ Int. 36 , 5, 543-551 (1996). [10] C.Y. Wen, L.T. Fan, Models for Flow Systems and Chemical Reactions, Dekker, New York, NY, 1975. [11] S. Singh, S.C. Koria, Steel Research Int. 66 , 1, 66-72 (1995). [12] T. Merder, A. Bogusławski, J

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B. Hadała, Z. Malinowski and T. Telejko

thermo-mechanical processing of steel, Proceedings of 3rd International Seminar of the International Federation for Heat Treatment and Surface Engineering, Melbourne pp. 139-159, 1991. [10] B. Hadała, A. Cebo-Rudnicka, Z. Malinowski, A. Gołdasz, The influence of thermal stresses and strand bending on surface defects formation in continuously cast strands, Archives of Metallurgy and Materials 56 , 367-377 (2011). [11] D. Li, M.A. Wells, Effect of water flow rate, water temperature, nozzle size and nozzle stand-off distance on the boiling water heat transfer

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Richard J. Wilbraham and Colin Boxall

pyridine-pyrazole type in acidic corrosion of steel. Colloids Surf. A, 259, 143-149. 23. Kosari, A., Moayed, M. H., Davoodi, A., Parvizi, R., Momeni, M., Eshghi, H., & Moradi, H. (2014). Electrochemical and quantum chemical assessment of two organic compounds from pyridine derivatives as corrosion inhibitors for mild steel in HCl solution under stagnant condition and hydrodynamic flow. Corros. Sci., 78, 138-150 24. Hayward, T. M., Svishchev, I. M., & Makhija, R. C. (2003). Stainless steel flow reactor for supercritical water oxidation

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L. Sowa and A. Bokota

-time simulation of heat transfer in continuous casting, Metallurgical Transactions 24B , 8, 685-693 (1993). L. Sowa, Numerical analysis of solid phase growing in a continuous steel caster, ZAMM 76 , 491-492 (1996). S.K. Choudhary, D. Mazumdar, Mathematical modelling of transport phenomena in continuous casting of steel, ISIJ International 34 , 7, 584-592 (1994). B.G. Thomas, L. Zhang, Mathematical modeling of fluid flow in continuous casting, ISIJ International 41 , 10, 1181-1193 (2001

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R. Wyczółkowski, C. Kolmasiak, D. Urbaniak and T. Wyleciał

References [1] R. Wyczółkowski, Classification and characterization of porous charges found in the industrial heat treatment practice. Metallurgical Metallurgist-News 79, 877-879 (2012). [2] R. Wyczółkowski, Analysis of the Rayleigh number in the area of steel rectangular sections in the conditions of steady and unsteady heat flow. Civil and Environmental Engineering Reports - CEER 14, 3, 107-118 (2014). [3] P.K. Panigrahri, K. Muralidhar, Imaging Heat and Mass Transfer Processes Visualization and Analysis

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M. H. Buszko and A. K. Krella

) 691–704. 32. de Bree S., Rosenbrand W., de Gee A., On the erosion resistance in water-sand mixtures of steels for application in slurry pipelines. Proc. 8th Int. Conf. Hydraulic Transport of Solids in Pipes, BHRA Fluid Engineering, Johannesburg, 1982, Paper C3. 33. Fuyan L., Hesheng S., The effect of impingement angle on slurry erosion. Wear, 141 (1991) 279–289. 34. Gandhi B.K., Singh S.N., Seshadri V., Study of the parametric dependence of erosion wear for the parallel flow of solid-liquid mixtures. Tribology International, 32 (1999) 275

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Madalina Viorica Ion

://galati.arcelormittal.com/about-us/company-history.aspx?sc_lang=en ArcelorMittal Hunedoara. (n.d.). Information for shareholders. Retrieved 12 2017, from http://www.arcelormittalhunedoara.ro/ro-RO/S_A_en.html ArcelorMittal. (2006, 06). Arcelor recommends improved Mittal Steel offer. Retrieved 12 2017, from http://corporate.arcelormittal.com/news-and-media/pressreleases/archive/2006/jun/25-06-2006?lang=english Arcelormittal. (2009, 02 11). Previous results. Retrieved 12 201, from http://corporate.arcelormittal.com/~/media/Files/A/ArcelorMittal/news-andmedia/press-releases/2009/February/128

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M. Perzyk, A. Kochański, P. Mazurek and K. Karczewski

.1016/S1471-5317 (00) 00003-1. [9] Carlson, K.D., Lin, Z., Hardin, R., & Beckermann, C. (2002). Modeling of Porosity Formation and Feeding Flow in Steel Casting. In Proceedings of the 56th SFSA Technical and Operating Conference, Paper No. 4.4, Steel Founders' Society of America, Chicago, IL, USA. [10] Pequet, Ch., Gremaud, M., & Rappaz, M. (2002). Modeling of Microporosity, Macroporosity, and Pipe-Shrinkage Formation during the Solidification of Alloys Using a Mushy-Zone Refinement Method: Applications to Aluminum Alloys. Metall. Mater