This article discusses and analyzes the law of nitrogen increase in liquid steel and the main factors affect-ing the nitrogen increasing of molten steel,through the way of adding nitrogen to molten steel by bottom blo...This article discusses and analyzes the law of nitrogen increase in liquid steel and the main factors affect-ing the nitrogen increasing of molten steel,through the way of adding nitrogen to molten steel by bottom blowing nitrogen gas in LF refining process.It is considered that the main factors affecting the nitrogen increasing instability of molten steel are the initial temperature of LF refining,nitrogen relative element,surface active elements[O]and[S]of steel liquid,and bottom blowing rate of ladle.The large-scale production practice shows that T[O]not more than 50×10-6 and[S]is not more than 0.020 in LF refining at the initial temperature of not less than 1570.The liquid steel nitrogen enrichment test is carried out by ladle bottom blowing nitrogen gas after 20 min of refining,the flow rate is set as(6.0~7.0)NL/min per ton,and it is turned to 2 NL/min at 6 min before the end of refining,the nitrogen increasing rate of liquid steel is basically stable at(5~6)×10-6 per minute.展开更多
兴澄特钢生产碳素结构钢和船板用钢的生产流程为150 t BOF-LF-RH-200~250 mm板CC工艺。统计分析了精炼过程造渣埋弧操作、送电制度、LF加热时间、钢包底吹氩等工艺因素对钢水增氮的影响。通过控制除尘吸风管道阀门开启度,保持LF内微正...兴澄特钢生产碳素结构钢和船板用钢的生产流程为150 t BOF-LF-RH-200~250 mm板CC工艺。统计分析了精炼过程造渣埋弧操作、送电制度、LF加热时间、钢包底吹氩等工艺因素对钢水增氮的影响。通过控制除尘吸风管道阀门开启度,保持LF内微正压操作,精炼前采用较高供电功率,后期用低供电功率,精炼前、中、后期分别采用氩气流量200,400~500,200~300 L/min,以及控制LF渣量1.2%等措施可使LF精炼过程的增氮量≤5×10^(-6),不经过RH真空处理,可控制板坯氮含量≤50×10^(-6)。展开更多
文摘This article discusses and analyzes the law of nitrogen increase in liquid steel and the main factors affect-ing the nitrogen increasing of molten steel,through the way of adding nitrogen to molten steel by bottom blowing nitrogen gas in LF refining process.It is considered that the main factors affecting the nitrogen increasing instability of molten steel are the initial temperature of LF refining,nitrogen relative element,surface active elements[O]and[S]of steel liquid,and bottom blowing rate of ladle.The large-scale production practice shows that T[O]not more than 50×10-6 and[S]is not more than 0.020 in LF refining at the initial temperature of not less than 1570.The liquid steel nitrogen enrichment test is carried out by ladle bottom blowing nitrogen gas after 20 min of refining,the flow rate is set as(6.0~7.0)NL/min per ton,and it is turned to 2 NL/min at 6 min before the end of refining,the nitrogen increasing rate of liquid steel is basically stable at(5~6)×10-6 per minute.
文摘兴澄特钢生产碳素结构钢和船板用钢的生产流程为150 t BOF-LF-RH-200~250 mm板CC工艺。统计分析了精炼过程造渣埋弧操作、送电制度、LF加热时间、钢包底吹氩等工艺因素对钢水增氮的影响。通过控制除尘吸风管道阀门开启度,保持LF内微正压操作,精炼前采用较高供电功率,后期用低供电功率,精炼前、中、后期分别采用氩气流量200,400~500,200~300 L/min,以及控制LF渣量1.2%等措施可使LF精炼过程的增氮量≤5×10^(-6),不经过RH真空处理,可控制板坯氮含量≤50×10^(-6)。