Improvement in Castability of Al Killed Steel in Billet Casters by Process Optimisation

Somnath Kumar; Kiran Kumar Keshari; Antariksh Gupta; Abdhesh Prasad; Vikash Kumar; Basudev Mishra

doi:10.4028/www.scientific.net/MSF.978.21

Paper Titles

Resistance Spot Welded Al 1100 Alloy with Carbonaceous Interlayers
p.3

Study of Calcium Treatment in Steel Ladles for the Modification of Alumina Inclusions to Avoid Nozzle Clogging during Casting
p.12

Improvement in Castability of Al Killed Steel in Billet Casters by Process Optimisation
p.21

Investigation on the Influence of Different Additives on Properties of Green Sand Mould
p.29

Role of Marangoni Convection in a Repetitive Laser Melting Process
p.34

The Dispersion of Lead in Hypoeutectic Aluminium-Silicon Alloys by Spray Forming Process and their Characterization
p.40

Experimental Analysis of Canola Oil as Dielectric Fluid in Electric Discharge Machining of AISI D2 Steel
p.49

Process Parameter Effects over Bead Properties during Material Deposition of PTAW Process
p.55

HomeMaterials Science ForumMaterials Science Forum Vol. 978Improvement in Castability of Al Killed Steel in...

Improvement in Castability of Al Killed Steel in Billet Casters by Process Optimisation

Abstract:

Sticking of alumina as well as spinel inclusions inside the sub entry nozzles (SEN) as well as tundish nozzle is perennial problem during continuous casting of aluminum killed steel through billet casters. This results in restriction or completely blockage of flow of liquid steel through the nozzles eventually leading to abortion of sequence in billet casters and stopping of continuous casting machine. Nozzle clogging not only restricts the productivity by restraining the casting sequence, intermittent extrication of clogged alumina particles or dislodged refractory materials are a significant source of non-metallic macro-inclusions in the cast sections of billet casters. If these inclusions are not removed completely during secondary refining of steel they causes excessive clogging mainly in low carbon Al killed steels. In other grades of Al killed steel cogging is also very prominent if the deoxidation and secondary refining is not carried out properly. IISCO Steel Plant (ISP), Burnpur a new, modernised unit of Steel Authority of India Limited (SAIL) was facing problems of nozzle clogging in low carbon, low Si, Al killed grade (EWNR –electrode quality grade) resulting in premature abortion of casting sequence leading to huge productivity loss. To solve the problem of nozzle clogging in low carbon Al killed grades and other grades at ISP, optimisation of various steelmaking parameters viz. amount of Al addition & its sequence, purging regime in ladle furnace, optimisation of Ca treatment process etc has been carried out which has resulted in improvement in castability of Al Killed Steel in billet caster of ISP.

You might also be interested in these eBooks

Processing and Characterization of Materials

View Preview

Info:

Periodical:

Materials Science Forum (Volume 978)

Pages:

21-28

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.978.21

Citation:

Cite this paper

Online since:

February 2020

Authors:

Somnath Kumar*, Kiran Kumar Keshari, Antariksh Gupta, Abdhesh Prasad, Vikash Kumar, Basudev Mishra

Keywords:

Calcium Treatment, Clean Steel, Deoxidation, Inclusions, Nozzle Clogging

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Rackers, K., and B.G. Thomas, Clogging in Continuous Casting Nozzles, 78th Steelmaking Conference Proceedings, Iron and Steel Society, Vol. 78, 1995, pp.723-734.

Google Scholar

[2] Sunday Abraham, Rick Bodnar, Justin Raines, Inclusion Engineering and the Metallurgy of Calcium Treatment, Iron & Steel Technology, July 2014, pp-55-69.

Google Scholar

[3] Lifeng Zhang and Brian G. Thomas, State of the Art in Evaluation and Control of Steel Cleanliness,, ISIJ International, Vol. 43 (2003), No. 3, p.271–291.

DOI: 10.2355/isijinternational.43.271

Google Scholar

[4] E.T. Turkdogan, , Fundamentals of Steelmaking,, The Institute of Materials, U.K., 1996, p.290–292.

Google Scholar

[5] Marie-Aline Van Ende, Muxing Guo, Joris Proost, Bart Blanpain, Patrick Wollants, Formation and Morphology of Al2O3 Inclusions at the Onset of Liquid Fe Deoxidation by Al Addition,, ISIJ International, Vol. 51 (2011), No. 1, p.27–34.

DOI: 10.2355/isijinternational.51.27

Google Scholar

[6] Sunday Abraham, Rick Bodnar, Justin Raines, Inclusion Engineering and the Metallurgy of Calcium Treatment,, Iron & Steel Technology, July 2014, pp.57-69.

Google Scholar