为了提高RH精炼处理效率及钢水的洁净度,鞍钢股份有限公司炼钢总厂针对RH精炼装置脱碳、氧含量和夹杂物控制等相关工艺进行了研究和改进.通过控制转炉粗钢液中的碳氧含量、快速提高RH真空度、增加提升钢液的驱动气体氩气流量、吹氧强制脱碳、延长真空脱碳时间、增大插入管管径以及改善插入管形状维护等措施,保证了RH精炼的脱碳效果.通过控制钢包及浇注过程增碳,保证了成品碳稳定控制在20×10-6以下;同时优化了RH精炼升温工艺,并开发硅脱氧、镁脱氧及中间包改质工艺,显著降低了钢坯的全氧含量,降低了冷轧夹杂比率,从而确定了合理的RH冶炼超低碳钢工艺参数及RH精炼搬出后超低碳钢增碳的控制工艺. In order to improve the efficiency of RH refining and the cleanliness of molten steel, Anshan Iron and Steel Co., Ltd. Steel Plant for RH refining equipment decarburization, oxygen content and inclusion control and other related processes were studied and improved by controlling the crude steel liquid converter Carbon and oxygen content, the rapid increase of RH vacuum, increase the flow of argon to enhance the flow of liquid steel gas, oxygen forced decarburization, to extend the vacuum decarburization time, increase the diameter of the insertion tube and improve the shape of the insertion tube maintenance and other measures to ensure that RH refining decarburization effect by controlling the ladle and the casting process of carbon, to ensure the stability of the finished carbon under 20 × 10-6 control at the same time optimize the RH refining heating process, and the development of silicon deoxidation, deoxidation of magnesium and tundish modified Process, significantly reducing the total oxygen content of the billet, reducing the cold rolling inclusions ratio, to determine a reasonable RH smelting process parameters of ultra-low carbon steel and carbon content after RH refining ultra-low carbon steel control process.