刘威等：钢-渣界面非金属夹杂物运动行为研究进展 ·1655· inclusion removal in tundish with gas curtain.Special Steel,2009, manganese-silicon killed steels at steel-gas and steel-slag 30(1):7 interfaces.ISLJ Int,2004,44(1):1 (黄奥，汪厚植，顾华志，等.气幕挡墙中间包夹杂物去除的水模 [40]Liu J.Guo M.Jones PT,et al.In situ observation of the direct and 型研究.特殊钢，2009,30(1)：7) indirect dissolution of Mgo particles in CaO-Al,O-SiO,-based [30]Ni B,Luo Z G,Di Z X,et al.Experimental study on inclusion slags.J Eur Ceram Soc,2007,27(4):1961 removal in slab continuous casting mold by water modeling [41]Kimura S,Nabeshima Y,Nakajima K,et al.Behavior of Continuous Cast,2009,34(1):1 nonmetallic inclusions in front of the solid-liquid interface in low- (倪冰，罗志国，狄瞻霞，等.板坯连铸结品器内夹杂物去除的水 carbon steels.Metall Mater Trans B,2000,31(5):1013 模实验研究.连铸，2009,34(1)：1) [42]Misra P,Chevrier V,Sridhar S,et al.In situ observations of [31]Chen X Y,Cao L,Hu J D.et al.Study on water modeling for inclusions at the (Mn,Si)-killed steel/CaO-Al,O interface.Metall mixing trait and inclusion removing of LF.Iron Steel,2009, Mater Trans B,2000,31(5:1135 44(12):27 [43]Coletti B,Blanpain B,Vantilt S,et al.Observation of calcium (陈向阳，曹磊，胡建东，等.LF精炼炉混合特性及夹杂物去除的 aluminate inclusions at interfaces between Ca-treated,Al-killed 水模型研究.钢铁，2009,44(12)：27) steels and slags.Metall Mater Trans B,2003,34(5):533 [32]Cho J S,Lee H G.Cold model study on inclusion removal from [44]Wikstrom J,Nakajima K,Shibata H,et al.In situ studies of the liquid steel using fine gas bubbles.IS//Int,2001,41(2):151 agglomeration phenomena for calcium-alumina inclusions at liquid [33]Nakaoka T,Taniguchi S,Matsumoto K,et al.Particle-size- steel-liquid slag interface and in the slag.Mater Sci Eng:4,2008, grouping method of Inclusion agglomeration and its application to 495(1-2):316 water model experiments./S///nt,2001,41(10):1103 [45]Wikstrom J,Nakajima K,Shibata H,et al.In situ studies of [34]Zhou Y L,Deng Z Y,Zhu M Y.Separation mechanism of agglomeration between Al2O3-Cao inclusions at metal/gas, solid/liquid inclusions transfer at steel-slag interface.Chin metal/slag interfaces and in slag.Ironmak Steelmaker,2008, Process Eng,2018,18(1):96 35(8):589 (周业连，邓志银，朱苗勇.固/液态夹杂物穿过钢渣界面的分离 [46]Liu J H,Verhaeghe F,Guo M X,et al.In situ observation of the 机理.过程工程学报，2018,18(1)：96) dissolution of spherical alumina particles in CaO-AlO;-SiOz [35]Yang H B.Study on Moving Behavior of Inclusion during Process melts.JAm Ceram Soc,2007,90(12):3818 of Passing Steel-Slag Interface [Dissertation].Beijing:University [47]Yin H B,Shibata H,Emi T,et al."in-situ"observation of colli- of Science and Technology Beijing,2015 (杨宏博.夹杂物穿越钢渣界面过程运动行为研究[学位论文】 sion,agglomeration and cluster formation of alumina inclusion 北京：北京科技大学，2015) particles on steel melts./S//Int,1997,37(10):936 [36]Liu C,Li J S,Sun L Y,et al.Influence of floatation velocity on [48]Wikstrom J,Nakajima K,Jonsson L,et al.Application of a model removal of inclusions at steel-slag interface.Special Steel,2014, for liquid inclusion separation at a steel-slag interface for 35(5):5 laboratory and industrial situations.Steel Res Int,2008,79(11): (刘超，李京社，孙丽媛，等.上浮速度对钢渣界面夹杂物去除的 826 影响.特殊钢，2014,35(5)：5) [49]Rocha V C.Pereira J A M.Yoshioka A,et al.Evaluation of [37]Liu C.Theoretical Study on the Separation and Removal of secondary steelmaking slags and their relation with steel Inclusions at the Steel Slag Interface [Dissertation].Beijing: cleanliness.Metall Mater Trans B,2017,48(3):1423 University of Science and Technology Beijing,2014 [50]Wang H M,Li G R,Dai Q X,et al.Effect of additives on viscosity (刘超.钢渣界面夹杂物分离去除的理论研究学位论文.北京： of LATS refining ladle slag./SI/Int,2006,46(5):637 北京科技大学，2014) [51]Hanao M,Tanaka T,Kawamoto M,et al.Evaluation of surface [38]Kimura S,Nakajima K,Mizoguchi S.Behavior of alumina- tension of molten slag in multi-component systems./S//Int,2007, magnesia complex inclusions and magnesia inclusions on the 47(7):935 surface of molten low-carbon steels.Metall Mater Trans B,2001. [52]Duchesne M A,Hughes R W.Slag density and surface tension 32(1):79 measurements by the constrained sessile drop method.Fuel,2017, [39]Vantilt S,Coletti B,Blanpain B,et al.Observation of inclusions in 188:173inclusion removal in tundish with gas curtain. Special Steel, 2009, 30（1）: 7 （黄奥, 汪厚植, 顾华志, 等. 气幕挡墙中间包夹杂物去除的水模 型研究. 特殊钢, 2009, 30（1）：7） Ni  B,  Luo  Z  G,  Di  Z  X,  et  al.  Experimental  study  on  inclusion removal  in  slab  continuous  casting  mold  by  water  modeling. Continuous Cast, 2009, 34（1）: 1 （倪冰, 罗志国, 狄瞻霞, 等. 板坯连铸结晶器内夹杂物去除的水 模实验研究. 连铸, 2009, 34（1）：1） [30] Chen  X  Y,  Cao  L,  Hu  J  D,  et  al.  Study  on  water  modeling  for mixing  trait  and  inclusion  removing  of  LF. Iron Steel,  2009, 44（12）: 27 （陈向阳, 曹磊, 胡建东, 等. LF精炼炉混合特性及夹杂物去除的 水模型研究. 钢铁, 2009, 44（12）：27） [31] Cho J S, Lee H G. Cold model study on inclusion removal from liquid steel using fine gas bubbles. ISIJ Int, 2001, 41（2）: 151 [32] Nakaoka  T,  Taniguchi  S,  Matsumoto  K,  et  al.  Particle-size￾grouping method of lnclusion agglomeration and its application to water model experiments. ISIJ Int, 2001, 41（10）: 1103 [33] Zhou  Y  L,  Deng  Z  Y,  Zhu  M  Y.  Separation  mechanism  of solid/liquid  inclusions  transfer  at  steel-slag  interface. Chin J Process Eng, 2018, 18（1）: 96 （周业连, 邓志银, 朱苗勇. 固/液态夹杂物穿过钢渣界面的分离 机理. 过程工程学报, 2018, 18（1）：96） [34] Yang H B. Study on Moving Behavior of Inclusion during Process of Passing Steel−Slag Interface [Dissertation]. Beijing: University of Science and Technology Beijing, 2015 （ 杨宏博. 夹杂物穿越钢渣界面过程运动行为研究[学位论文]. 北京: 北京科技大学, 2015） [35] Liu C, Li J S, Sun L Y, et al. Influence of floatation velocity on removal of inclusions at steel−slag interface. Special Steel, 2014, 35（5）: 5 （刘超, 李京社, 孙丽媛, 等. 上浮速度对钢渣界面夹杂物去除的 影响. 特殊钢, 2014, 35（5）：5） [36] Liu  C. Theoretical Study on the Separation and Removal of Inclusions at the Steel Slag Interface [Dissertation].  Beijing: University of Science and Technology Beijing, 2014 （ 刘超. 钢渣界面夹杂物分离去除的理论研究 [学位论文]. 北京: 北京科技大学, 2014） [37] Kimura  S,  Nakajima  K,  Mizoguchi  S.  Behavior  of  alumina￾magnesia  complex  inclusions  and  magnesia  inclusions  on  the surface of molten low-carbon steels. Metall Mater Trans B, 2001, 32（1）: 79 [38] [39] Vantilt S, Coletti B, Blanpain B, et al. Observation of inclusions in manganese-silicon  killed  steels  at  steel−gas  and  steel-slag interfaces. ISIJ Int, 2004, 44（1）: 1 Liu J, Guo M, Jones P T, et al. In situ observation of the direct and indirect  dissolution  of  MgO  particles  in  CaO−Al2O3−SiO2 -based slags. J Eur Ceram Soc, 2007, 27（4）: 1961 [40] Kimura  S,  Nabeshima  Y,  Nakajima  K,  et  al.  Behavior  of nonmetallic inclusions in front of the solid−liquid interface in low￾carbon steels. Metall Mater Trans B, 2000, 31（5）: 1013 [41] Misra  P,  Chevrier  V,  Sridhar  S,  et  al. In situ observations  of inclusions at the (Mn, Si)-killed steel/CaO−Al2O3 interface. Metall Mater Trans B, 2000, 31（5）: 1135 [42] Coletti  B,  Blanpain  B,  Vantilt  S,  et  al.  Observation  of  calcium aluminate  inclusions  at  interfaces  between  Ca-treated,  Al-killed steels and slags. Metall Mater Trans B, 2003, 34（5）: 533 [43] Wikström  J,  Nakajima  K,  Shibata  H,  et  al. In situ studies  of  the agglomeration phenomena for calcium-alumina inclusions at liquid steel−liquid slag interface and in the slag. Mater Sci Eng:A, 2008, 495（1-2）: 316 [44] Wikström  J,  Nakajima  K,  Shibata  H,  et  al.  In  situ  studies  of agglomeration  between  Al2O3−CaO  inclusions  at  metal/gas, metal/slag  interfaces  and  in  slag. Ironmak Steelmaker,  2008, 35（8）: 589 [45] Liu J H, Verhaeghe F, Guo M X, et al. In situ observation of the dissolution  of  spherical  alumina  particles  in  CaO−Al2O3−SiO2 melts. J Am Ceram Soc, 2007, 90（12）: 3818 [46] Yin H B, Shibata H, Emi T, et al. “in-situ” observation of colli￾sion,  agglomeration  and  cluster  formation  of  alumina  inclusion particles on steel melts. ISIJ Int, 1997, 37（10）: 936 [47] Wikström J, Nakajima K, Jonsson L, et al. Application of a model for  liquid  inclusion  separation  at  a  steel−slag  interface  for laboratory  and  industrial  situations. Steel Res Int,  2008,  79（11）: 826 [48] Rocha  V  C,  Pereira  J  A  M,  Yoshioka  A,  et  al.  Evaluation  of secondary  steelmaking  slags  and  their  relation  with  steel cleanliness. Metall Mater Trans B, 2017, 48（3）: 1423 [49] Wang H M, Li G R, Dai Q X, et al. Effect of additives on viscosity of LATS refining ladle slag. ISIJ Int, 2006, 46（5）: 637 [50] Hanao  M,  Tanaka  T,  Kawamoto  M,  et  al.  Evaluation  of  surface tension of molten slag in multi-component systems. ISIJ Int, 2007, 47（7）: 935 [51] Duchesne  M  A,  Hughes  R  W.  Slag  density  and  surface  tension measurements by the constrained sessile drop method. Fuel, 2017, 188: 173 [52] 刘    威等： 钢−渣界面非金属夹杂物运动行为研究进展 · 1655 ·