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超低碳钢210t RH脱碳精炼工艺的优化 被引量:4

Optimization of 210t RH Decarburization Process for Ultra-Low Carbon Steel Refining
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摘要 分析和确定了RH精炼的初始碳含量、提升气体流量和转炉终点氧含量,并进行生产实践。结果表明,RH进站初始碳含量应控制在250×10^(-6)~400×10^(-6),转炉出钢时终点氧含量应控制在250×10^(-6)~400×10^(-6)。实际生产数据统计表明,在PH处理初期(0~3 min),各炉次脱碳速率最大值可达到98×10^(-6)/min,在脱碳终点时,碳含量在12×10^(-6)左右。 The RH refining initial carbon content in liquid, rising gas rate and converter end oxygen content in liquid are analyzed and defined, and the production practice has carried out. The results show that the initial carbon content in liquid before RH refining should be controlled from 250×10^ -6 to 400 × 10 ^-6, the end oxygen content in liquid of converter at tapping should be controlled from 250 ×10 ^-6 to 400 ×10 ^-6. The statistic data of real production show that in beginning period of RH refining for 0 - 3 min, the max decarburization rate of each heat is up to 98 × 10^-6/min, and at end of decar- burization the carbon content in liquid is about 12×10 ^-6.
作者 周剑丰 罗钢
机构地区 湖南华菱涟源钢铁有限公司技术中心
出处 《特殊钢》 北大核心 2015年第6期33-35,共3页 Special Steel
关键词 210t RH 超低碳钢 脱碳 工艺优化 210 t RH Unit, Ultra-Low Carbon Steel, Decarburization, Process Optimization
分类号 TF769.4 [冶金工程—钢铁冶金]
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参考文献10

  • 1Kuwabara T. Progress of RH Refining Process in Japan [ J ]. Tetsu to Hagan~, 1987,73(12) :2157-2164.
  • 2Kuwabara T, Umezawa K, Moro K. Investigation of Decarburization Behavior in RH Reactor and Its Operation Improvement [ J ]. ISIJ In- ternational, 1988,28 (4) :305-311.
  • 3Yamaguehi K, Kishimoto Y, Sakuraya T, et al. Effect of Refining Conditions for Ultra Low Carbon Steel on Decarburization Reaction in RH Degasser[ J ]. ISIJ International, 1992,32 ( 1 ) : 126-134.
  • 4Kitamura S, Yano M, Harashima K, et al. Deearburization Model for Vacuum Degasser [ J ]. Tetsu to Hagan, 1994,80 ( 3 ) :213-219.
  • 5Takahashi M, Matsumoto H, Saito T. Mechanism of Decarburization in RH Degasser[ J]. ISIJ International, 1995,35 (12) : 1452-1459.
  • 6李朋欢,包燕平,岳峰,彭尊,袁晓峰.RH快速深脱碳研究[J].钢铁研究学报,2011,23(1):11-15. 被引量:8
  • 7Lei Ze-long, Zhang Li-feng, Gao Jian-wei, et al. Production of Ultra Low Carbon IF Steels by RH-TOP Process[ C ]. AISTEch 2009 Pro- ceedings, St Louis :2009.
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二级参考文献29

  • 1王新华.不同钢类的RH精炼装置和工艺特点分析[c]//RH精炼技术研讨会文集.上海:2007.
  • 2Kuwabara T. Progress of RH Refining Process in Japan [J]. Tetsu-to-Hagane,1987,73(12) : 2157.
  • 3Kuwabara T, Umezawa K, Moro K. Investigation of Decarburization Behavior in RH-Reactor and Its Operation Improvement [J].Transactions ISIJ, 1988,28(4) : 305.
  • 4Yamaguchi K, Kishimoto Y, Sakuraya T. et al. Effect of Refining Conditions for Ultra Low Carbon Steel on Decarburization Reaction in RH Degasser [J]. ISIJ International, 1992,32 (1), 126.
  • 5Kitamura S, Yano M, Harashima K, et al. Decarburization Model for Vacuum Degasser [J]. Tetsu-to-Hagane,1994,80 (3):213.
  • 6Takahashi M, Matsumoto H, Saito T. Mechanism of Deearburization in RH Degasser [J]. ISIJ International,1995,35 (12) : 1452.
  • 7徐汉明.RH真空循环脱气装备选型探讨[c]//RH精炼技术研讨会文集.上海:2007.
  • 8Suda M, Suitou M, Hasunuma J. The Advanced Mass Production System of Ultra Low Carbon Steel at KSC's Mizushima [C]//Steelmaking Conference Proceedings. Toronto:1992.
  • 9LEI Ze-long, ZHANG Li-feng, GAO Jian-wei, et at. Production of Ultra Low Carbon IF Steels by RH-TOP Process [C]// AISTEch 2009 Proceedings. St Louis:2009.
  • 10Huin D, Saint-Raymond H, Stouvenot F, et al. Kinetics of Vacuum Deearburization of Ultra Low Carbon Steels [C]//Steelmaking Conference Proceedings. Baltimore:2001.

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2015年 第6期

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