摘要
通过建立相似比为1∶3钢包物理模型及与原型相同孔隙率的透气砖模型,研究不锈钢偏心吹氩工艺;对钢液混匀时间、钢液面流速及渣眼等软吹工艺参数进行优化。试验结果表明,钢液混匀底吹气量在103.1 L/h(现场流量2.1 m3/h)以上时,混匀时间比达到50%以上。钢液表面流速表明在液面隆起边缘处(渣眼边缘)容易发生卷渣。渣眼直径受到吹气孔位置影响,底吹气孔越靠近钢包包壁,渣眼直径越小。距圆心1/2R及2/3R处进行软吹搅拌,可保证渣眼面积比分别小于12.4%及10.5%。优化后的钢包流场可以有效减少静吹氩过程中产生的二次氧化现象。
The eccentric argon stirring in stainless steel production has been studied by using geometric similarity 1 : 3 water model and plug model which has the same porosity to plug used in production. The mixing time, velocity of liquid steel surface and open-eye are optimized. Experiment results show that when argon stirring rate exceeds 103.1 L/h (2.1 m3/h in production) the mixing time ratio (the minimum mixing time divided by mixing time at a certain flow rate) will be more than 50%. The velocity of liquid steel surface shows that storage area edge ( open-eye edge) is prone to entrap slag. The diameter of open-eye is affected by ladle wall where the closer distance from porous plug to ladled wall causes the smaller diameter of open-eye. Soft blowing with plug located at 1/2R and 2/3R will ensure the open-eye ratio less than 12.4% and 10.5% respectively. The optimized flow field can prevent argon stirring process from reoxidation effectively.
出处
《钢铁钒钛》
CAS
北大核心
2015年第2期132-138,共7页
Iron Steel Vanadium Titanium
基金
中国博士后科学基金资助项目(2014M 560890)
关键词
钢包
吹氩搅拌
水模型
透气砖布置
搅拌流量
渣眼
不锈钢
ladle, argon stirring, water model, plug location, stirring rate, open-eye, stainless steel
