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HomeSolid State PhenomenaSolid State Phenomena Vol. 226Industrial Experiments Filtration of Steel

Industrial Experiments Filtration of Steel

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Abstract:

The research on the process of steel filtration from non-metallic inclusions is currently entering the last phase of industrial experiments. Their positive effects confirm the previous theoretical assumptions and laboratory tests. The application of steel filtration as a permanent technological operation in the process of steel casting will remarkably improve its metallurgic purity. An additional advantage will be diminishing the probability of covering the outlet nozzle of a tundish. This paper presents an outline of the experiment results mentioned above.

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Technologies and Properties of Modern Utility Materials XXII

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Periodical:

Solid State Phenomena (Volume 226)

Pages:

189-192

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.226.189

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Online since:

January 2015

Authors:

Krystian Janiszewski*, Bożena Gajdzik, Karel Gryc, Ladislav Socha, Agnieszka Bogdał

Keywords:

Ceramic Filter, Continuous Casting, Solid Non-Metallic Inclusions, Steel

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[1] A. Kusiak-Anioła et al., Metalurgia argonowania stali (in Polish), Ed. Śląsk, Katowice (1981).

[2] W.I. Jawojski et al., Wkljuczienia i gazy w staliach (in Russian), Ed. Mietałłurgia, Moscow (1979).

[3] K. Stránský, J. Bažan, D. Horáková, Filtrace tavenin železa v průmyslové praxi, Vysoká škola báňská – Technická univerzita Ostrava 2008, ISBN 978-80-248-1844-3.

[4] J. Bažan, M. Přihoda, J. Dobrovská, P. Jelinek, Z. Jonšta, M. Vrožina, Nove poznatky z vyzkumu plynnuleho odlevani oceli, Vysoka Škola Baňska – Technicka Univerzita, Ostrava (2001).

[5] J. Mancini, J. Stel, Tundish metallurgy: a combined Irsid und Hoogovens research, Revue de Métallurgie-CIT 89 (3) (1992) 269-277.

DOI: 10.1051/metal/199289030269

[6] M. Warzecha, T. Merder, Numerical analysis of the non-metallic, inclusions distribution and separation in a two-strand tundish, Metalurgija – Journal for Theory and Practice in Metellurgy 52 (2) (2013) 153-156.

DOI: 10.2355/isijinternational.53.1983

[7] J. Piątkowski, Nucleation and growth of primary silicon crystals in AlSi alloy after modification with Cup and overheating to a temperature of 920°C, Solid State Phenomena 212 (2014) 237-242.

DOI: 10.4028/www.scientific.net/ssp.212.237

[8] K. Janiszewski, B. Gajdzik, A. Wyciślik, The influence of slenderness ratios of multi-hole ceramic filters from SF - 1. 67 to SF - 8. 36 of filter surface on efficiency of liquid steel refining from non-metallic phase, Conference on Technologies and Properties of Modern Utilised Materials (TPMUM), Katowice, POLAND, Solid State Phenomena 212 (2014).

DOI: 10.4028/www.scientific.net/ssp.212.205

[9] K. Janiszewski, B. Panic, Industrial investigations of the liquid steel filtration, Metalurgija 53 (3) (2014) 339-342.

[10] K. Janiszewski, The slenderness ratio of the filter used in the process of liquid steel filtration as the additional parameter of the filter form, Steel Research International 84 (3) (2013) 288-296.

DOI: 10.1002/srin.201200077

[11] K. Janiszewski, Refining of liquid steel in a tundish using the method of filtration during its casting in the CC machine, Archives of Metallurgy and Materials 58 (2) (2013) 513-521.

DOI: 10.2478/amm-2013-0029

[12] R. Rotko, Wpływ atmosfery ochronnej argonu na proces filtracji ciekłej stali z wtrąceń niemetalicznych (in Polish), Master thesis, Katowice (2009).

DOI: 10.15199/24.2018.5.2

[13] K. Janiszewski, Rafinacja ciekłej stali w atmosferze ochronnej (in Polish), Hutnik – Wiadomości Hutnicze 77 (1) 2010 8-13.

[14] K. Janiszewski, Refining of liquid steel multi-hole ceramic filters in protective atmosphere, Instytutu Metalurgii Żelaza 61 (5) (2009) 78-82.

[15] K. Janiszewski, Z. Kudliński, The influence of non metallic inclusions physical state on effectiveness of the steel filtration process, Steel Research 3 (2006) 169-176.

DOI: 10.1002/srin.200606371