摘要
Q235B钢(/%:0.14~0.17C,0.30~0.60Mn,0.010~0.040Als)和Q345B钢(/%:0.15~0.18C,1.30~1.60Mn,0.010~0.040Als)100 mm厚板的生产流程为铁水预处理-120 t转炉-LF-200 mm板坯连铸-轧制工艺。通过分析得出中厚板表面纵裂纹源于铸坯裂纹。通过保护渣碱度由1.16提高至1.26,1300℃黏度由0.80Pa·s提高至0.97 Pa·s,软搅拌时间不低于10 min,拉速控制在1.0 m/min左右,液面上下波动≤5 mm,保持结晶器锥度9.0 mm,钢水过热度20~25℃,二冷水为0.662 L/kg等工艺措施,使Q235B和Q345B钢中厚板纵裂率由2.17%下降至1.08%,板材综合合格率由原94.78%提高到98.16%。
The flowsheet of 100 mm heavy plate of steel 235B (/% : 0. 14 -0. 17C, 0. 30 - 0. 60Mn, 0. 010 -0. 040Als) and steel Q345B (/% : 0.15 -0.18C, 1.30 - 1.60Mn, 0.010 -0.040Als) is hot metal pretreatment-120 t converter-LF-220 mm slab casting- rolling process. By analysis it is obtained that the surface cracks of medium-heavy plate originate from cracks of casting slab. With using the process measures including increasing basicity of mold shielding slag from 1.16 to 1.26, increasing its viscosity at 1 300 ℃ from 0. 80 Pa · s to 0. 97 Pa · s, soft stirring time no-less than 10 min, controlling casting speed about 1.0 m/min; liquid surface up and down ≤ 5 mm; maintaining mold cone 9. 0 mm; liquid superheat extent 20 -25 ℃ and secondary water rate 0. 662 L/kg, the ratio of longitudinal cracks of steel Q235B and Q345B medium-heavy plate decreases from original 2. 17% to 1.08%, and the comprehensive qualified ratio of plate prod- ucts increases to 98.16% from original 94. 78%. Material Index Medium-Heavy Plate, Steel Q235B and Q345B, Longitudinal Crack, Casting Slab, Process Optimi- zation
出处
《特殊钢》
北大核心
2015年第6期30-32,共3页
Special Steel
关键词
中厚板
Q235B和Q345B钢
纵裂纹
铸坯
工艺优化
Index Medium-Heavy Plate, Steel Q235B and Q345B, Longitudinal Crack, Casting Slab, Process Optimi-zation