INFLUENCE OF CONTINUOUS STEEL CASTING CONDITIONS ON BEHAVIOR AND STABILITY OF LIQUID MOLD SLAG DURING SLAB CASTING – PHYSICAL MODELING

Authors

  • Marcin Bielnicki Częstochowa University of Technology, Faculty of Production Engineering and Materials Technology, Department of Metals Extraction and Recirculation http://orcid.org/0000-0001-7764-5446
  • Jan Jowsa Częstochowa University of Technology, Faculty of Production Engineering and Materials Technology, Department of Metals Extraction and Recirculation

DOI:

https://doi.org/10.7494/mafe.2018.44.1.17

Keywords:

continuous steel casting, mold, submerged entry nozzle, mold slag, physical modeling

Abstract

This article presents the results of the physical modeling of the continuous casting of steel slabs in a mold. The experiments focused on the assessment of the shape and stability of the liquid mold slag layer, which was reproduced in studies using silicone oil. The experimental tests were carried out for two different geometries of the submerged entry nozzle, two extreme submergence depths of the submerged entry nozzle (0.215 and 0.295 m), and two extreme casting speeds (1.0 and 1.6 m/min) used in industry. For each variant of the experiment, photographic documentation of the oil layer’s behavior was presented and discussed. The research was supplemented with a visualization of the flow structure using a marker for the selected variant of the experiment.

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References

Steel Statistical Yearbook 2017. www.worldsteel.org [07.02.2018]

Jeon Y.J., Sung H.J., Lee S.: Flow Oscillations and Meniscus Fluctuations in a Funnel-type Water Mold Model. Metallurgical and Materials Transactions B, 41, 1 (2010), 121–130

Torres-Alonso E., Morales R.D., García-Hernández S., Palafox-Ramos J.: Cyclic Turbulent Instabilities in a Thin Slab Mold. Part I: Physical Model. Metallurgical and Materials Transactions B, 41, 3 (2010), 583–597

Morales R.D., Tang Y., Nitzl G., Eglsäeer C., Hackl G.: Design of a Submerged Entry Nozzle for Thin Slab Molds Operating at High Casting Speeds. ISIJ International, 52, 9 (2012), 1607–1615

Arcos-Gutierrez H., Barrera-Cardiel G., Barreto J. de J., Garcia-Hernandez S.: Numerical Study of Internal SEN Design Effects on Jet Oscillations in a Funnel Thin Slab Caster. ISIJ International, 54, 6 (2014), 1304–1313

Suzuki M., Suzuki M., Nakada M.: Perspectives of Research on High-speed Conventional Slab Continuous Casting of Carbon Steels. ISIJ International, 41, 7 (2001), 670–682

Li L.-P., Wang X.-H., Deng X.-X., Ji C.-X.: Process and Quality Control during High Speed Casting of Low Carbon Conventional Slab. Journal of Iron and Steel Research International, 22, Supplement 1 (2015), 1–9

Zhang L., Yang S., Cai K., Li J., Wan X., Thomas B.G.: Investigation of Fluid Flow and Steel Cleanliness in the Continuous Casting Strand. Metallurgical and Materials Transactions B, 38, 1 (2007), 63–83

Bielnicki M., Jowsa J., Cwudziński A.: Multiphase Numerical Model of Molten Steel and Slag Behavior in the Continuous Casting Mould. Archives of Metallurgy and Materials, 60, 1 (2015), 257–262

Jowsa J., Bielnicki M., Cwudziński A.: Numerical Modeling of Metal/Flux Interface in a Continuous Casting Mould. Archives of Metallurgy and Materials, 60, 4 (2015), 2905–2912

Wang Z., Mukai K., Ma Z., Nishi M., Tsukamoto H., Shi F.: Influence of Injected Ar Gas on the Involvement of the Mold Powder under Different Wettabilities between Porous Refractory and Molten Steel. ISIJ International, 39, 8 (1999), 795–803

Calderon-Ramos I., Barreto J. de J., Garcia-Hernandez S.: Physical and Mathematical Modelling of Liquid Steel Fluidynamics in a Billet Caster. ISIJ International, 53, 5 (2013), 802–808

Morales-Higa K., Guthrie R.I.L., Isac M., Morales R.D., Labrecque C., Lapointe F.: A Comparative Study of Multiport Nozzles in a Square Billet Mold. 8th European Continuous Casting Conference, Graz, Austria 23–26.06.2014. The Austrian Society of Metallurgy and Materials, 2014, 477–486

Jin X., Chen D.F., Xie X., Shen J., Long M.: Investigation on Water Model for Fluid Flow in Slab Continuous Casting Mold with Consideration of Solidified Process. Steel Research International, 84, 1 (2013), 31–39

Mills K.C.: Structure and Properties of Slags Used in the Continuous Casting of Steel. Part 1: Conventional Mould Powders. ISIJ International, 56, 1 (2016), 1–13

Calderón-Ramos I., Morales R.D., Garcia-Hernandez S., Ceballos-Huerta A.: Effects of Immersion Depth on Flow Turbulence of Liquid Steel in a Slab Mold Using a Nozzle with Upward Angle Rectangular Ports. ISIJ International, 54, 8 (2014), 1797–1806

Najjar F.M., Thomas B.G., Hershey D.E.: Numerical Study of Steady Turbulent Flow through Bifurcated Nozzles in Continuous Casting. Metallurgical and Materials Transactions B, 26, 4 (1995), 749–765

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Published

2018-10-22

How to Cite

Bielnicki, M., & Jowsa, J. (2018). INFLUENCE OF CONTINUOUS STEEL CASTING CONDITIONS ON BEHAVIOR AND STABILITY OF LIQUID MOLD SLAG DURING SLAB CASTING – PHYSICAL MODELING. Metallurgy and Foundry Engineering, 44(1), 17. https://doi.org/10.7494/mafe.2018.44.1.17

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