kijak_2010
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kijak_2010


DisciplinaLingotamento Contínuo de Aços30 materiais70 seguidores
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Free Surface in a Water Model of a Slab Continuous Casting Mold, ISIJ 
International, Vol. 45, 2005, No. 11, p. 1626 - 1635 
[12] P. Väyrynen et al.: Tundish Flow Model Tuning and Validation: Steady State and Transient 
Casting Situations, Graz/Seggau, Austria, In: SteelSim 2007, September 12-14 2007 
Acta Metallurgica Slovaca, Vol. 16, 2010, No. 2, p. 76-83 83 
 
[13] H.-J. Odenthal, R. Bolling, H. Pfeifer: Numerical and Physical Simulation of Tundish Fluid 
Flow Phenomena, In: Steel Research 74, 2003, No.1 
[14] M. J. Cho., I. J. Kim: Simple Tundish Mixing Model of Continuous Casting during a Grade 
Transition, ISIJ International, Vol. 46, 2006, No. 10, p. 1416\u20131420 
[15] M. Clark, T. Wagner, A. Trousset: Modelling for Tundish Applications, In: Refractories 
Engineer, January 2003 
[16] Y. Sahai, T. Emi: Melt Flow Characterization in Continuous Casting Tundishes, ISIJ 
International, Vol.36, 1996, No.6 
[17] Y. Sahai, T. Emi: Criteria for Water Modelling of Melt flow and Inclusion Removal in 
Continuous Casting tundishes, ISIJ International, Vol.36, 1996, No.9 
[18] H. Yamaura et al.: Development of Technology for blowing Fine Bubbles into Tundish 
through Porous Plug Using Molten Steel Flow, ISSTech 2003 Conference Proceedings 
[19] J. Falkus, J. Lamut: Model Testing of the Bath Flow Through the Tundish of the 
Continuous Casting Machine, In: Archives Of Metallurgy and Materials, 2005, Issue 3 
[20] M. Iguchi, K. Takahashi, O. J. Ilegbusi, M. Sano, H. Kiuchi: Effects of the Physical 
properties of Top Oil Layer on Bubble and Liquid Flow Characteristics in a bottom Blown 
Water Bath, ISIJ International, Vol.38, 1988, No. 9 
[21] A. Aguilar - Corona, R. D. Morales, M. Díaz \u2013 Cruz, J. Palafox \u2013 Ramos, L. García 
Demedices: Thermal stratification of steel flow in tundishes with off-centred ladle shrouds 
using different flow control designs, Canadian metallurgical Quartely, Vol 42, No. 4 
[22] P. J. Väyrynen, S. K. Vapalahti, S. J. Louhenkilpi: On Validation of Mathematical Fluid 
Flow Models for Simulation of Tundish Water Models and Industrial Examples, 
[16.5.2010] http://www.flow3d.com/pdfs/tp/cast_tp/FloSci-Bib03-08.pdf 
[23] K. G. Venkatesan, S. K. Bera, S. Khurana: Water Modelling \u2013 A tool for Effective 
Designing of Turbulence-suppressing Tundish Impact Pad, TURBOSTOP, [13.5.2010], 
http://www.foseco-steel.com/steel/downloads/technical_papers/01.pdf 
[24] F. Kemeny, D. J. Harris, A. McLean, T. R. Meadowcroft, J. D. Young: Fluid flow studies in 
the tundish of slab caster, Continuous Casting of Steel, 2nd
 
Process Technology Conference, 
Vol.2, 1981 
[25] B. G. Thomas, L. Zhang: Mathematical Modelling of Fluid Flow in Continuous Casting, 
ISIJ International, Vol. 41, 2001, No. 10, p. 1181\u20131193 
[26] T. Debroy, J. A. Sychterz: Numerical Calculation of Fluid Flow in a Continuous Casting 
Tundish, Metallurgical transactions B, Vol. 16B, 1985 
[27] C. M. Fan, R. J. Shie, W. S. Hwang: Studies by mathematical and physical modelling of 
fluid flow and inclusion removal phenomena in slab tundish for casting stainless steel using 
various flow control device designs, Iron and Steelmaking, Vol. 30,2003, No.5 
[28] B. G. Thomas, A. Dennisov, H. Bai: Behavior of Argon Bubbles during Continuous Casting 
of Steel, In: ISS 80th Steelmaking Conference, Chicago, IL, ISS, 1997, p. 375-384