Variation of Non-Metallic Inclusions Composition in X80 Pipeline Steel Refined by High Basicity Slag

The transformation of inclusions was studied when control technology of refining top slag in ladle furnace was used in X80 pipeline steelmaking.Sufficient amount of aluminum was added to experimental heats for final deoxidation during BOF tapping,and then the refining top slag with high basicity and strong reducibility was adopted to transform Al 2 O 3 to inclusions with low melting point.The results show that the composition of inclusions changes in order of "Al 2 O 3 → MgO-Al 2 O 3 system→ CaO-MgO-Al 2 O 3 system→ CaO-Al 2 O 3 system".And the inclusions after LF refining are liquid or semi-liquid state at the temperature of steelmaking,which are easily removable to obtain high cleanliness steel by collision,agglomeration and flotation.

X80管线钢LF-RH二次精炼过程夹杂物行为及控制

研究了210 t BOF-LF-RH-CC工艺流程生产X80管线钢(%:0.041～0.044C、0.15Si、1.78～1.80Mn、0.007～0.010P、0.000 8～0.001 2S、0.039～0.047[Al]s)时精炼过程中夹杂物的变化。在BOF出钢阶段采用加Al强脱氧(0.01%～0.02%[Al]s),LF精炼过程采用高碱度、强还原性精炼渣(精炼渣成分%:50～58CaO、7～10MgO、20～25Al_2O_3、4～7SiO_2、0.5～1.4TFe),炉渣和钢液反应活跃,使得钢中Al_2O_3夹杂物很快向液态钙铝酸盐和部分液态CaO-MgO-Al_2O_3复合夹杂物转变。液态夹杂物通过碰撞、聚合、长大及上浮去除,提高了钢液的洁净度。浇铸前T[O]降到(7～10)×10^(-6),钢中夹杂物尺寸在3～5μm,试验炉次的热轧板内未发现大尺寸的低熔点钙铝酸盐类长条夹杂物。

X80管线钢精炼过程中夹杂物转变行为及机理研究

研究了X80管线钢精炼过程中夹杂物的转变行为及其机理。结果表明，转炉出钢阶段加铝强脱氧，钢中夹杂物以伴有极少量MgO的Al2O3为主；LF炉精炼采用高碱度和低氧化性炉渣精炼，钢中Al2O3夹杂物向钙铝酸盐和CaO-MsO-Al2O3，系夹杂物转变，平均成分靠近低熔点区；RH炉真空处理后夹杂物中Al2O3和MgO的含量减少，CaO含量增加，夹杂物成分分布较分散；钙处理后钢中CaO-MgO—Al2O3系夹杂物比例明显降低，CaO—Al2O3系夹杂物比例明显增加，夹杂物平均成分已远离低熔点区，达到了高品质管线钢的冶炼效果。

X80管线钢精炼过程中夹杂物行为研究

研究了国内某厂生产X80管线钢精炼过程中夹杂物的转变。BOF出钢阶段加铝脱氧,钢中夹杂物以伴有极少量MgO的Al2O3为主;LF过程采用高碱度高还原性渣精炼,钢中Al2O3夹杂物向钙铝酸盐和CaO-MgO-Al2O3复合夹杂物转变,平均成分靠近低熔点区;RH真空处理后,夹杂物中Al2O3和MgO的含量减少,CaO含量增加,夹杂物成分分布较为分散;钙处理后,钢中CaO-MgO-Al2O3复合夹杂比例明显减少,CaO与CaS比例明显增加,夹杂物平均成分已经远离低熔点区,达到了高品质管线钢的冶炼效果。