共查询到19条相似文献,搜索用时 125 毫秒
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敬业钢铁有限公司现场试验了单嘴浸渍管结构RH炉和弓形浸渍管结构RH炉真空精炼超低碳钢的应用效果,记录两种RH炉提升气体流量和真空度的变化,多次取样检测钢液中w([C])和w([Mn]),分析对比两种RH炉的脱碳效果和混匀时间。结果显示,在真空处理6 min内,两种RH炉的真空度都可降至100 Pa以下,10 min后稳定在50 Pa左右;在真空处理20 min内,前者钢中w([C])基本脱至0.001 0%~0.001 5%,而后者钢中w([C])可以脱至0.000 5%左右,后者的脱碳速率也明显快于前者;前者和后者的混匀时间分别在3和1 min左右。结果表明,后者的冶炼效果明显优于前者,弓形浸渍管比单嘴浸渍管更适用于小吨位RH真空精炼炉。 相似文献
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分析中厚板卷厂RH炉浸渍管使用寿命低的原因,通过优化RH炉浸渍管耐材的理化指标、浸渍管喷补料及喷补工艺,改进顶渣设备及优化烘烤制度等措施的实施,浸渍管平均使用寿命由2007年投产初期的32炉提高到2009年的72炉,RH炉真空钢月生产量由2万吨提高到8.3万吨。 相似文献
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武钢从西德麦索(MESSO)公司引进的一套RH真空设备,自1979年10月投产至1986年底,迄今已精炼各类试验钢和硅钢共计3789炉约25.4万吨。其中1986年生产1583炉11.1万吨,超过设计能力54%。七年来,武钢在真空精炼的应用上做了不少工作,本文仅从精炼工艺和设备改进等方面作扼要叙述,以期对今后的生产及新RH真空设备的引进和应用有所帮助。一、RH真空设备概况武钢RH真空精炼炉设置在转炉与连铸 相似文献
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根据承钢150t炼钢系统预留的RH位置,新建的双工位RH真空精炼装置的工艺布置和设备选型充分运用了新技术、新工艺,实现了运行成本低、生产流程顺畅、衔接紧凑、效能最大化的设计目标。 相似文献
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宋凯 《冶金设备管理与维修》2013,(5):68-70
RH真空室是RH真空精炼冶金反应的熔池,RH真空精炼脱碳反应的反应速度与RH真空精炼用顸枪枪头参数的设定有密切关系。借助商业软件GRAFTOOL3.0对R.H真空精炼用顶枪扩张角大小进行流场数值模拟,分析了不同扩张角角度下的射流状态,对R.H吹氧脱碳提供了重要科学依据,验证了最佳扩张角角度。 相似文献
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IF钢碳含量不稳定因素分析 总被引:1,自引:0,他引:1
针对攀钢IF钢RH处理过程终点碳含量偏高及不稳定的问题,对IF钢生产工艺过程进行了跟踪调查.结果表明:RH处理前钢水[C]及a[O]、真空度、脱碳时间、钢包耐火材料及合金增碳等是影响IF钢碳含量偏高及不稳定的主要因素.RH进站[C]含量高于0.045%,终点碳含量与进站碳含量成正比关系;最小真空度越低,脱碳时间越长,终点碳含量就越低.为保证攀钢IF钢碳含量合格,应将RH进站钢水碳含量控制在0.030%~0.045%、a[O]控制在(500~700)×10-6,加强设备监控与维护以维持足够的深真空时间和进一步降低真空度.为减少RH处理后期钢液增碳,在保证真空室不结冷钢的前提下应使用渣线部位不含碳的钢包及低碳合金. 相似文献
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Jian Cui Zongze Huang Zhigang Ma 《宝钢技术》2008,1(1):1-5
With the strong demand for the development of automobile sheets, tin plates, household appliances, silicon steel, pipeline steel and other products as well as for the quality improvement of steel products, remarkable progress has been made in RH refining technology and equipment design since Baosteel began production more than 20 years ago. The vacuum degassing ratio of Baosteel has jumped from 35% in the initial stage when Baosteel began production, to the current ratio of approximately 60%, and will soon reach 75% in the near future. The independent innovations in RH refming technology in Baosteel, such as RH equipment optimization, vacuum decarburization, inclusion control, deoxidation, desulfurization, rhythm adjustment between primary steelmaking and continuous casting, the high efficiency of the RH refining process, and other aspects of RH technology, have all effectively met the requirements of developing new steel products, quality improvement and logistical control. Complete sets of RH equipment and refining technology have been successfully exported to the domestic steel plants. In the future, Baosteel will make further efforts to improve efficiency, stabilize production and quality, and realize special line production, so that the RH degasser will play a greater role in Baosteel. 相似文献
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TSUKIHASHI Fumitaka 《钢铁研究学报(英文版)》2011,(Z2):176-181
RH vacuum degasser is a very important secondary refining device in the production of high quality steels. The flow field of molten steel in RH system plays a significant role in determining productivity of the equipment. The homogeneous model and VOF method were often used to predict the flow field in RH system, but these kinds of models simplified the interaction between gas bubbles and molten steel. In the present work, a numerical model of a whole RH system, including vacuum degasser, immersed legs and ladle,was built based on gas-liquid two-fluid model, and it could be used to analyze the interaction between argon bubbles and molten steel, to understand the effect of the bubble size to the flow field. 相似文献