降低钢中全氧含量的精炼工艺技术
张敏
攀钢集团攀枝花钢铁研究院
Refining Technology for Reducing w([TO]) in Steel
ZHANG Min
摘要 为实现高品质低氧钢的生产,有效降低钢中全氧含量,在考虑转炉下渣、炉渣氧化性以及钢水氧活度影响的前提下,通过研究钢包渣改质技术、过程钢包渣氧化性控制技术以及相应的钢包底吹氩制度等精炼工艺,建立了转炉-连铸流程生产低氧钢的精炼工艺技术。采用该技术生产的高品质优特钢成品w([TO])≤15×10-6。
关键词 :
低氧钢 ,
夹杂物 ,
T[O] ,
精炼
Abstract :In order to produce low oxygen steel with high quality, converter slag-tapping, slag oxidability and oxygen activity were analyzed. In addition, modifying and adding process of slag, control of slag oxidability and bottom argon-blowing in ladle were researched as well. On this basis, refining process which is good for low oxygen steel producing with converter-continuous casting process has been developed. The results show that w([TO]) in steel is not more than 15×10-6.
Key words :
low oxygen steel
inclusions
T[O]
refining
收稿日期: 2010-08-11
出版日期: 2011-07-25
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牛凯军, 杨文, 张立峰, 储焰平, 张洪起, 郭子强. 帘线钢凝固过程夹杂物生成热力学及工业实践
[4]
Jie-bin Qi, Xin-xin Wang, Xiao-qiang Yan. Influence of mill modulus control gain on vibration in hot rolling mills
[5]
李岚昕1,王敏1,隽荣斐1,包燕平1,阳晋2. 齿轮钢锻件关键区域氧化物和硫化物夹杂的分布特征
[6]
秦正丰, 薛正良, 李金波, 李博思. 钙处理钢中大型球状及棒状夹杂的成因
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王祎, 张立峰, 任英, 任强. 37Mn5钢精炼过程夹杂物转变机理
[8]
Xi‑kou He, Zhi‑qiang Yang, Zhen Wang, Shi‑bin Qiao, Zheng‑dong Liu. Effect of Mn content on microstructure, tensile and impact properties of SA508Gr.4N steel for reactor pressure vessel
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杨光维, 陈兆平, 柳向椿. 非钙处理对高等级齿轮钢夹杂物的影响
[10]
Xue-min Yang, Jin-yan Li, Fang-jia Yan, Dong-ping Duan. Critical assessment of mixing thermodynamic functions of Fe–Al binary melts based on atom–molecule coexistence theory
[11]
朱坦华, 周秋月, 任英, 段豪剑, 张立峰. 二次氧化过程IF钢中间包中夹杂物演变行为
[12]
杜昀聪1,伊元荣1,2,3,白书齐1,马忠乐1,方明航1,马文青1. LF精炼渣碳酸化过程Ca赋存状态转变
[13]
康健 于彦冲 孟晓亮 王社斌. 稀土处理HRB400E钢中夹杂物热力学分析
[14]
赵海生, 朱海丰 . Q195热轧带钢冷弯开裂原因分析
[15]
夏 冰, 陈 斌,后宗保,赵志海. Q235B H型钢冷弯开裂原因分析
2011, Vol. 46 
