Abstract:The cause of stopper rod erosion and improving measures have been presented by analyzing the materials of stopper refractory,observing the element distribution within the erosion layer and the thermodynamic calculation. The research results show that the main reason for the stopper rod erosion was the high mass of C and SiC in the stopper rod refractory and the calcium-aluminates with low melting point produced by the reaction of high persent [Ca] in the liquid steel and Al2O3,SiO2,C in the stopper rod refractory,and the stopper rod erosion can dramatically be reduced by adjusting calcium treatment and replacing magnesia carbon stopper rod refractory. Through these improving measures, the working life of stopper increased from 286-824 min to 460-1 020 min,the average working life increased from 495 min to 802 min,the problem of stopper rod erosion has been basically solved.
收稿日期: 2016-05-18
出版日期: 2016-12-09
引用本文:
许 涛,邹长东,赵家七,刘 飞. 含铝冷镦钢塞棒侵蚀原因分析与改进[J]. 钢铁, 2016, 51(12): 41-46.
XU Tao,ZOU Chang-dong,ZHAO Jia-qi,LIU Fei. Analysis on stopper rod erosion mechanism and improvement for aluminum bearing cold heading steel. Iron and Steel, 2016, 51(12): 41-46.
SUN Yi-jie, Liu Xiao-feng, Gao Zhu-bing, et al.Analysis for casting machine casting off of non-program caused by pouring of molten steel [J].Continuous Casting,2011(4):38.
[3]
SUN Yi-jie, Liu Xiao-feng, Gao Zhu-bing, et al.Analysis for casting machine casting off of non-program caused by pouring of molten steel [J].Continuous Casting,2011(4):38.
[4]
Yoshiaki KUSANO, Yuji KAWAUCHI, MasamiWAJIMA, et al.Calcium treatment technologies for special steel bars and wireRods[J].ISIJ International, 1996, 36(Suppl):455-459
[4]
Yoshiaki KUSANO, Yuji KAWAUCHI, MasamiWAJIMA, et al.Calcium treatment technologies for special steel bars and wireRods[J].ISIJ International, 1996, 36(Suppl):455-459
XU Ke.The application of Alumina graphite stopper in casting calcium-treated steel[J].Metallurgy of Sichuang, 2012, 34(1):16-20
[7]
XU Ke.The application of Alumina graphite stopper in casting calcium-treated steel[J].Metallurgy of Sichuang, 2012, 34(1):16-20
[8]
Katsuhiro SASAI, YoshimasaMIZUKAM.Reaction Rate between Alumina Graphite Immersion Nozzle and low Carbon Steel [J], ISIJ International, 1995,35(1):26-33.
[8]
Katsuhiro SASAI, YoshimasaMIZUKAM.Reaction Rate between Alumina Graphite Immersion Nozzle and low Carbon Steel [J], ISIJ International, 1995,35(1):26-33.
[9]
Ryoji TSUJINO, Arata TANAKA, Akira IMAMURA, Daijo TAKAHASH, et al.Mechanism Immersion of Deposition of Inclusion and Nozzle of Continuous Casting[J].ISIJ International, 1994, 34(11):853-858
[9]
Ryoji TSUJINO, Arata TANAKA, Akira IMAMURA, Daijo TAKAHASH, et al.Mechanism Immersion of Deposition of Inclusion and Nozzle of Continuous Casting[J].ISIJ International, 1994, 34(11):853-858
[10]
Yang Jun, Wang Xinhua, Jiang min, et al.Effect of Calcium Treatment on Non-metallic Inclusions in Ultra-low Oxygen Steel Refined by Basicity High Al2O3 Slag[J].Journal of Iron and Steel Research International, 2011, 18(7):8-14
[10]
Yang Jun, Wang Xinhua, Jiang min, et al.Effect of Calcium Treatment on Non-metallic Inclusions in Ultra-low Oxygen Steel Refined by Basicity High Al2O3 Slag[J].Journal of Iron and Steel Research International, 2011, 18(7):8-14
Zhang Guang-zhi, Su liu-ji, et al.Analysis on service performance of compound magnesia carbon stopper head and nozzle [J]. Refractory Materials, 1995(6):321-323.
[14]
Zhang Guang-zhi, Su liu-ji, et al.Analysis on service performance of compound magnesia carbon stopper head and nozzle [J]. Refractory Materials, 1995(6):321-323.
2016, Vol. 51 
