The Role of Slag Carryover on the Non-metallic Inclusion Evolution and Magnetic Behavior in Electrical Steel

In the present investigation, a set of high-temperature experimentations were carried out to improve the understanding of the influence of slag carryover (SCO) on non-metallic inclusion evolution during the production of high silicon electrical steels for functional applications. It was observed tha...

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Bibliographic Details
Published in:Metallurgical and materials transactions. B, Process metallurgy and materials processing science Process metallurgy and materials processing science, 2022-08, Vol.53 (4), p.1989-2003
Main Authors: Kamaraj, Ashok, Murugaiyan, Premkumar, Mandal, G. K., Roy, G. G.
Format: Article
Language:English
Subjects:
Characterization and Evaluation of Materials
Chemistry and Materials Science
Coercivity
Electrical steels
Evolution
High temperature
International Metallurgical Processes Workshop for Young Scholars (IMPROWYS 2021)
Lime
Liquid alloys
Magnetic properties
Materials Science
Metallic Materials
Nanotechnology
Nonmetallic inclusions
Process controls
Silicon steels
Slag
Steel
Structural Materials
Surfaces and Interfaces
Thin Films
Topical Collection: 2021 Metallurgical Processes Workshop for Young Scholars
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Summary:In the present investigation, a set of high-temperature experimentations were carried out to improve the understanding of the influence of slag carryover (SCO) on non-metallic inclusion evolution during the production of high silicon electrical steels for functional applications. It was observed that the liquid steel treated with synthetic slag and lime resulted in the formation of CaO-based complex oxide, sulfide, and nitride inclusions in the matrix. Whereas the top slag (synthetic slag and lime) contaminated with carryover slag transforms the complex oxide inclusions to Mn free oxy-sulfide inclusions in the high Si steel. Further, the high-silicon steel evaluated for magnetic property confirms the detrimental magnetic behavior of the steel treated using the top slag with the excess amount of SCO (10 kg/t). The increase in coercivity is due to a higher fraction of sub-micron inclusions in the steel matrix. The industry implications of the present findings are highlighted in the light of the evolution of Goss texture in high silicon steel during downstream processing. The evolution of detrimental inclusions in functional grade (electrical) steels due to the presence of SCO call for stringent process control during the upstream processing of liquid steel to maintain the desired magnetic properties.
ISSN:1073-5615
1543-1916
DOI:10.1007/s11663-022-02547-w