Technology for Complex Deoxidation of Steel with Silicon Carbide and Calcium Carbide in Order to Obtain Steel with Low Nonmetallic Inclusion and Oxygen Contents

Technology for Complex Deoxidation of Steel with Silicon Carbide and Calcium Carbide in Order to Obtain Steel with Low Nonmetallic Inclusion and Oxygen Contents

Advantages and disadvantages of deoxidizing steel with silicon carbide and calcium carbide are considered. The advantage is demonstrated of joint diffusion deoxidization technology for steel with silicon carbide and calcium carbide. Use of classical technology of metal deoxidation with aluminum lead...

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Bibliographic Details
Published in:Metallurgist (New York) Vol. 64; no. 1-2; pp. 118 - 127
Main Authors: Leont’ev, L. I., Kuklev, A. V., Longinov, A. M., Tinyakov, V. V.
Format: Journal Article
Language:English
Published: New York Springer US 01-05-2020
Springer
Springer Nature B.V
Subjects:
Aluminosilicates
Aluminum oxide
Calcium aluminum silicates
Calcium sulfides
Characterization and Evaluation of Materials
Chemical compounds
Chemistry and Materials Science
Deoxidizing
Diffusion
Founding
Industrial accidents
Ladle metallurgy
Manganese
Materials Science
Metal castings
Metallic Materials
Nonmetallic inclusions
Nozzles
Silicon
Silicon carbide
Silicon steels
Steel
Sulfides
Technology application
Technology utilization
exogenous inclusions
alumina inclusions
aluminosilicates
diffusion deoxidation
nonmetallic inclusions
silicon carbide
calcium carbide
sulfides
steel ladle treatment
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Summary:Advantages and disadvantages of deoxidizing steel with silicon carbide and calcium carbide are considered. The advantage is demonstrated of joint diffusion deoxidization technology for steel with silicon carbide and calcium carbide. Use of classical technology of metal deoxidation with aluminum leads in a number of cases to the appearance of individual alumina inclusions of the reject type with general high purity of steel with respect to non-metallic inclusions. Inclusions are exogenous in nature, and their origin is presumably entry of alumina growths from the CBCM submerged nozzle. The technology of diffusion deoxidation of metal during ladle treatment with combined use of silicon carbide and calcium carbide makes it possible to exclude entry into steel of large alumina inclusions. Types, composition, sizes and distribution of nonmetallic inclusions in cast metal produced by this technology are investigated. Use of diffusion deoxidation with silicon carbide and calcium carbide makes it possible to form fine globular non-metallic inclusions, predominantly small calcium aluminosilicate, and manganese and calcium sulfides.
ISSN:0026-0894
1573-8892
DOI:10.1007/s11015-020-00973-2