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超低碳钢弱脱氧工艺下炉渣组分的控制 被引量:4

Slag Composition Control in Soft-Killed Process for Ultra-Low Carbon Steel
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摘要 针对采用弱脱氧工艺冶炼超低碳钢,利用Factsage软件计算了顶渣氧化性与钢水氧活度之间的关系,进而计算了炉渣各组元对硫分配比的影响。结果表明,对于超低碳钢的生产,顶渣中w(FeO+MnO)至少应控制在15%以下,w(CaO)/w(Al2O3)控制在2.5~4.0。工业试验表明,通过顶渣改性将w(FeO+MnO)控制在15%以下可避免回硫现象的发生,成品硫质量分数小于0.005%,达到了钢种要求。 Based on the soft-killed process for ultra-low carbon steel,the relationship between oxidizability of top slag and oxygen activity in steel was calculated using software Factsage,and then the effect of components of top slag on sulphur distribution ratio was also calculated.The results indicated that for ultra-low carbon steel making,w(FeO+MnO) in top slag should be controlled below 15% at least,and w(CaO)/w(Al2O3) should be controlled 2.5-4.0.Industrial test showed that after the w(FeO+MnO) is controlled below 15% through the slag property changing treatment,the resulfurization can be avoidable,the sulfur content of products is controlled lower than 0.005%,and the requirements for the steel can be met.
作者 张国兴 王谦 何生平 曾建华
机构地区 重庆大学材料科学与工程学院 攀枝花钢铁集团公司钢铁研究院
出处 《钢铁》 CAS CSCD 北大核心 2011年第5期38-42,共5页 Iron and Steel
关键词 弱脱氧 硫容量 硫分配比 超低碳钢 soft-killed sulfide capacity sulphur distribution ratio ultra-low carbon steel
分类号 TF761.2 [冶金工程—钢铁冶金]
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参考文献12

  • 1郝宁,王海涛,王新华,李宏,王万军.硫容量和硫分配比的计算及分析[J].北京科技大学学报,2006,28(1):25-28. 被引量:18
  • 2Hiroki Ohta, Hideaki Suito. Activities of SiOe and Al2O3 and Activity Coefficients of FetO and MnO in CaO-SiO2-Al2O3- MgO Slags [J]. Metall Trans B,1998,29 (1):119.
  • 3Sosinsky D J, Sommerville I D. The Composition and Temperature Dependence of the Sulfide Capacity of Metallurgical Slags [J]. Metall Trans B,1986,17 (6):331.
  • 4Young R W,Duffy J A,Hassal G J. Use of Optical Basicity Concept for Determining Phosphorus and Sulphur Slag-Metal Partitions[J]. Ironmaking and Steelmaking, 1992, 19 (3) : 201.
  • 5Nzotta M M,Sichen Du,Seetharaman S. Sulphide Capacities in Some Multi Component Slag System [J]. ISIJ Inernational,1998,38(13) :1170.
  • 6Nzotta M M, Sichen Du,Seetharaman S. Sulphide Capacities of "FeO"- SiO2, CaO-"FeO" and "FeO"-MnO Slags [J].ISIJ International, 1999,39 (7) : 657.
  • 7Margareta A T Andersson,Par O Jonsson,Mselly M Nzotta Application of the Sulphide Capacity Concept on High-Basici ty Ladel Slags Used in Bearing-Steel Production [J]. IS1IJ In ternationai, 1999,39(11) :1140.
  • 8Bale C W, Chartrand P, Degterov S A, et al. Factsage Ther mochemical Software and Databases Recent Developments[J].Calphad,2009,33(2):295.
  • 9Arthur D Pelton,Gunnar Eriksson, Antonio Romero-Serrano. Calculation of Sulfide Capacities of Multicomponent Slags [J]. Metall Trans B,1993,24 (10):817.
  • 10Youn-Bae Kang, Arthur D Pelton. Thermodynamic Model and Database for Sulfides Dissolved in Molten Oxide Slags[J]. MetallTrans B,2009,40(6):979.

二级参考文献6

  • 1Nzotta M M, Sichen D, Seetharaman S. Sulphide capacities in some multi component slag systems. ISIJ Int, 1998, 38:1170.
  • 2Young R W, Duffy J A, Hassall G J, et al. Use of optical basicity concept for determining phosphorus and sulphur slagmetal partitions. Ironmaking Steelmaking, 1992. 19:201.
  • 3Andersson M A T, Jonsson P G, Nzotta M M. Application of the sulphide capacity concept on high-basicity ladle slags used in bearing-steel production. ISIJ Int. 1999, 39:1140.
  • 4Ohta H, Sutto H. Activities of SiO2 and Al2O3 and activity coefficients of FetO and MnO in CaO SiO2-Al2O3-MgO slags.Metall Tram B, 1998, 28B: 119.
  • 5Nzotta M M, Sichen D, Seetharaman S, A study of the sulfide capacities of iron-oxide containing slags, Metall Tram B,1999, 30B: 909.
  • 6G6rnerup M. Studuies of Slag Netallurgy in Stainless Steelmaking [Dissertation]. Stockholm: Department of Metallurgy, Royal Institute of Technology, 1997.

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钢铁
2011年 第5期

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