Relationship between the common optical basicity models and the sulphide capacities of CaO-Al 2O 3-SiO 2-MgO slag
Abstract
The correlations between the sulphide capacity and the optical basicity models available in literature are reviewed. The relationship between sulphide capacity and the optical basicity was investigated on plant data collected from the BOF plant in the temperature range of 1565- 1650°C. The goal of this work was to compare results given by applying common acceptable Young's, Sosinsky-Sommerville's, Tsao-Katayama's and Taniguchi's optical basicity as well as the KTH model for calculating the sulphide capacities. The present paper is focused on the thermodynamic aspect of sulphur refining CaO-Al 22 3-SiO 2-MgO ladle slag during LF ladle treatment. Thirty one heats were employed in the present study in real production conditions of low carbon steels.
Keywords:
Analytical methods / Optical basicity / Steels / Sulphide capacity / ThermodynamicsSource:
Kovove Materialy, 2012, 50, 3, 185-192Publisher:
- Slovenska Akademia Vied
Institution/Community
Tehnološko-metalurški fakultetTY - JOUR AU - Slović, Z. AU - Nedeljković, Lj. AU - Raić, K. AU - Odanović, Z. PY - 2012 UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/5726 AB - The correlations between the sulphide capacity and the optical basicity models available in literature are reviewed. The relationship between sulphide capacity and the optical basicity was investigated on plant data collected from the BOF plant in the temperature range of 1565- 1650°C. The goal of this work was to compare results given by applying common acceptable Young's, Sosinsky-Sommerville's, Tsao-Katayama's and Taniguchi's optical basicity as well as the KTH model for calculating the sulphide capacities. The present paper is focused on the thermodynamic aspect of sulphur refining CaO-Al 22 3-SiO 2-MgO ladle slag during LF ladle treatment. Thirty one heats were employed in the present study in real production conditions of low carbon steels. PB - Slovenska Akademia Vied T2 - Kovove Materialy T1 - Relationship between the common optical basicity models and the sulphide capacities of CaO-Al 2O 3-SiO 2-MgO slag EP - 192 IS - 3 SP - 185 VL - 50 DO - 10.4149/km-2012-3-185 ER -
@article{ author = "Slović, Z. and Nedeljković, Lj. and Raić, K. and Odanović, Z.", year = "2012", abstract = "The correlations between the sulphide capacity and the optical basicity models available in literature are reviewed. The relationship between sulphide capacity and the optical basicity was investigated on plant data collected from the BOF plant in the temperature range of 1565- 1650°C. The goal of this work was to compare results given by applying common acceptable Young's, Sosinsky-Sommerville's, Tsao-Katayama's and Taniguchi's optical basicity as well as the KTH model for calculating the sulphide capacities. The present paper is focused on the thermodynamic aspect of sulphur refining CaO-Al 22 3-SiO 2-MgO ladle slag during LF ladle treatment. Thirty one heats were employed in the present study in real production conditions of low carbon steels.", publisher = "Slovenska Akademia Vied", journal = "Kovove Materialy", title = "Relationship between the common optical basicity models and the sulphide capacities of CaO-Al 2O 3-SiO 2-MgO slag", pages = "192-185", number = "3", volume = "50", doi = "10.4149/km-2012-3-185" }
Slović, Z., Nedeljković, Lj., Raić, K.,& Odanović, Z.. (2012). Relationship between the common optical basicity models and the sulphide capacities of CaO-Al 2O 3-SiO 2-MgO slag. in Kovove Materialy Slovenska Akademia Vied., 50(3), 185-192. https://doi.org/10.4149/km-2012-3-185
Slović Z, Nedeljković L, Raić K, Odanović Z. Relationship between the common optical basicity models and the sulphide capacities of CaO-Al 2O 3-SiO 2-MgO slag. in Kovove Materialy. 2012;50(3):185-192. doi:10.4149/km-2012-3-185 .
Slović, Z., Nedeljković, Lj., Raić, K., Odanović, Z., "Relationship between the common optical basicity models and the sulphide capacities of CaO-Al 2O 3-SiO 2-MgO slag" in Kovove Materialy, 50, no. 3 (2012):185-192, https://doi.org/10.4149/km-2012-3-185 . .