稀土镧对SWRS82B钢中氧化铝夹杂物的影响  被引量：6

作　　者：王奕 李长荣[1] 熊星强 宁州韶 Wang Yi;Li Changrong;Xiong Xingqiang;Ning Zhoushao(Guizhou Key Laboratory of Metallurgical Engineering and Process Energy Conservation,School of Materials and Metallurgy,Guizhou University,Guiyang 550025,China)

机构地区：[1]贵州大学材料与冶金学院,贵州省冶金工程与过程节能重点实验室,贵州贵阳550025

出　　处：《稀有金属》2022年第9期1199-1206,共8页Chinese Journal of Rare Metals

基　　金：国家自然科学基金面上项目(51864013,52074095)资助。

摘　　要：SWRS82B钢中氧化铝夹杂物严重影响钢绞线的拉拔性能。通过扫描电子显微镜(SEM)和能谱(EDS)分析仪研究了镧的不同添加(0~0.0360%范围内)对氧化铝夹杂物的成分、形态、尺寸数量和夹杂物间距的影响。基于经典热力学以及Factsage计算了稀土镧添加量对氧化铝夹杂物成分的演变规律。结果表明:钢液未加入稀土镧元素改性前,夹杂物的形貌趋于不规则的棱角状,夹杂物平均尺寸在8.65~11.32μm的范围内,夹杂物之间界面间距主要在10~100μm范围内。其次,当稀土镧添加量为0.036%的实验试样中具有最佳的夹杂物特征,其中面密度分布均匀,夹杂物之间界面间距变大,主要在100~500μm范围内,钢液中夹杂物形貌趋于近球形,夹杂物平均夹杂物尺寸减小了5.9~7.7μm。最后,通过结合上述所有热力学计算及实验结果推测了夹杂物的演变规律,目标夹杂物改性的大致路线为:Al_(2)O_(3)→La_(2)S_(3)+LaAlO_(3)→La_(2)S_(3)+LaAlO_(3)+La_(2)O_(2)S→La_(2)S_(3)+La_(2)O_(2)S,对解决高碳钢氧化铝夹杂物改性的问题提供参考。High-carbon hard wire steel was a high-strength steel widely used in steel wire ropes and steel strands.With the rapid de-velopment of automotive high-speed rail and electronic products related technologies,higher requirements were put forward for the per-formance of metal materials in its auxiliary industries.The size distribution of inclusions became an important criterion for determining the properties of steel.Class B non-metallic inclusions in steel(mainly alumina)were the main types of common inclusions in various high-quality steels.In view of the present situation and existing problems in the modification process of alumina inclusions in high car-bon hard wire steel,the modification process of B-type inclusions was systematically studied to explore the evolution process of inclu-sions.Use an intermediate frequency induction furnace to test in an alumina crucible.In this work,industrial pure iron,recarburizer and Fe-68%Mn alloy were added into the test furnace to prepare high-carbon hard wire steel samples with different contents of rare earth lanthanum,and then the steel ingot through wire cutting to take the target sample(10 mm×10 mm×10 mm)at the center of the cylindrical steel ingot was took.The prepared samples were characterized by metallurgical microscope(OM),scanning electron micro-scope(SEM)and energy dispersive spectrometer(EDS)and chemical composition testing to clearly understand the type,number,size distribution and other information of inclusions,and analyze the mechanism of rare earth lanthanum on the cleaning of molten steel.Afterwards,combined with Factsage thermodynamic calculations,the evolution of inclusions before and after the addition of lan-thanum was inferred,which could provide a better reference for purifying irregular-sized alumina inclusions in molten steel.The ef-fects of different additions of lanthanum(within the range of 0~0.0360%)on the composition,morphology,size and spacing of alumi-na inclusions were studied by SEM and EDS.The results were as follows:(1)From a macrosco

关 键 词：镧处理 夹杂物 热力学 演变规律 

分 类 号：TF803.21[冶金工程—有色金属冶金]