Abstract:The influence of calcium treatment was studied on non-metallic inclusions when control technology of refining top slag in ladle furnace was used in ultra-low oxygen refining process. Sufficient aluminium was added to test heats for final deoxygenation during BOF tapping, and the refining top slag with high basicity and strong reducibility in ladle furnace was used to produce ultra-low oxygen steel, and the transformation of non-metallic inclusions in molten steel was compared by calcium treatment and not calcium treatment. The results show that aluminium deoxidation products have finished the transformation of Al2O3→MgO·Al2O3 spinel→CaO-MgO-Al2O3 complex inclusions with lower melting point and need not calcium treatment to molten steel when using the control technology of ladle furnace refining top slag to produce ultra-low oxygen steel, and the complex inclusions with lower melting point are liquid at the temperature of steelmaking and easy removed to obtain very high cleanliness steel by collision and coalescence and flotation. Furthermore, the problems of nozzle clogging in casting operations are not happen because the remaining oxide inclusions in steel are lower melting point complex inclusions.
收稿日期: 2014-01-02
出版日期: 2015-01-12
引用本文:
杨 俊, 杜 江, 陈波涛, 吴俊雄. 超低氧精炼时钙处理对氧化物夹杂的影响[J]. 钢铁, 2015, 50(1): 19-26.
YANG Jun, DU Jiang, CHEN Bo-tao, WU Jun-xiong. Influence of calcium treatment on oxide inclusions in ultra-low oxygen refining process. Iron and Steel, 2015, 50(1): 19-26.
Holappa L E K. Ladle injection metallurgy. Int Met Rev, 1982,27 (2) : 53
[1]
Holappa L E K. Ladle injection metallurgy. Int Met Rev, 1982,27 (2) : 53
[2]
M. Herrera, F. Castro, M. Castro, et al. Modification of Al2O3 inclusions in medium carbon aluminium killed steels by AlCaFe additions. Ironmaking and Steelmaking,2006, 33(1):45
[2]
M. Herrera, F. Castro, M. Castro, et al. Modification of Al2O3 inclusions in medium carbon aluminium killed steels by AlCaFe additions. Ironmaking and Steelmaking,2006, 33(1):45
[3]
Yuan F M, Wang X H, Zhang J M. Online forecasting model of tundish nozzle clogging. J Univ Sci Technol Beijing, 2006, 13(1) : 21
[3]
Yuan F M, Wang X H, Zhang J M. Online forecasting model of tundish nozzle clogging. J Univ Sci Technol Beijing, 2006, 13(1) : 21
[4]
B.Coletti, S. Xantilt, B. Blanpain, S. Sridhar. Observation of calcium aluminate inclusions at interfaces between Ca-treated, Al-killed steels and slags. Metallurgical and Materials Transactions B, 2003, 34B(10):533
[4]
B.Coletti, S. Xantilt, B. Blanpain, S. Sridhar. Observation of calcium aluminate inclusions at interfaces between Ca-treated, Al-killed steels and slags. Metallurgical and Materials Transactions B, 2003, 34B(10):533
Holappa L, Hihalinen M, Liukkonen M, et al. Thermodynamic examination of inclusion modification and precipitation from calcium treatment to solidified steel. I ronmaking Steelmaking, 2003,30 (2) : 111
[6]
Holappa L, Hihalinen M, Liukkonen M, et al. Thermodynamic examination of inclusion modification and precipitation from calcium treatment to solidified steel. I ronmaking Steelmaking, 2003,30 (2) : 111
[7]
Ozturk B, Turkdogan E T. Equilibrium S distribution between molten calcium aluminate and steel: Part Ⅰ. CaS-CaO-Al2O3 melts equilibrated with liquid Fe containing Al and S. Met Sci, 1984, 18 (6) : 299
[7]
Ozturk B, Turkdogan E T. Equilibrium S distribution between molten calcium aluminate and steel: Part Ⅰ. CaS-CaO-Al2O3 melts equilibrated with liquid Fe containing Al and S. Met Sci, 1984, 18 (6) : 299
[8]
Lu D Z, Irons G A, Lu W K. Kinetics and mechanisms of calcium dissolution and modification of oxide and sulphide inclusions in steel. I ronmaking Steelmaking, 1994, 21 (5) : 362
[8]
Lu D Z, Irons G A, Lu W K. Kinetics and mechanisms of calcium dissolution and modification of oxide and sulphide inclusions in steel. I ronmaking Steelmaking, 1994, 21 (5) : 362
[9]
Inoue R, Suito H. Calcium desulfurization equilibrium in liquid iron. Steel Res, 1994, 65 (10) : 403
[9]
Inoue R, Suito H. Calcium desulfurization equilibrium in liquid iron. Steel Res, 1994, 65 (10) : 403
[10]
S. K. Choudhary, A. Ghosh. Thermodynamic evaluation of formation of oxide-sulfide duplex inclusions in steel. ISIJ international, 2008, 48(11):1552
[10]
S. K. Choudhary, A. Ghosh. Thermodynamic evaluation of formation of oxide-sulfide duplex inclusions in steel. ISIJ international, 2008, 48(11):1552
[11]
K. Ito: 165th–166th Nishiyama Memorial Seminar, ISIJ, Tokyo, (1997), 1
[11]
K. Ito: 165th–166th Nishiyama Memorial Seminar, ISIJ, Tokyo, (1997), 1
[12]
Zhang L F, Brain G.Thomas. ISIJ international, 2003,43(3) :276
[12]
Zhang L F, Brain G.Thomas. ISIJ international, 2003,43(3) :276
Goto H, Miyazawa K I, Kadoya T. ISIJ Int, 1995; 35(12): 1477
[14]
Goto H, Miyazawa K I, Kadoya T. ISIJ Int, 1995; 35(12): 1477
[15]
Nagata K, Tanabe J, Goto K S. Activities of Calciu Oxide in Cao-based Inclusions Measured by Galvanic Cells. Proceedings of The Sixth International Iron and Steel Congress, Nagoya: Iron and Steel Institute of Japan, 1990: 217
[15]
Nagata K, Tanabe J, Goto K S. Activities of Calciu Oxide in Cao-based Inclusions Measured by Galvanic Cells. Proceedings of The Sixth International Iron and Steel Congress, Nagoya: Iron and Steel Institute of Japan, 1990: 217
2015, Vol. 50 
