李翔等：铝耗及终脱氧氧位对F钢水口结瘤的影响 ·705· 物的成因分析.炼钢，2008,24(6)：41) 58) Singh S N.Mechanism ofalumina buildup in tundish nozzles dur- [1]Liu C J,Wang Y S,Zhu Y X,et al.Absorptive rate of mold ing continuous casting of aluminum-illed steels.Metall Trans, powder on inclusion.J Iron Steel Res,2000,12(Suppl 1):46 1974,5:2165 (刘承军，王云盛，朱英雄，等.连铸保护渣的夹杂物吸收速 [8]Zhao H M,Wang X H,Xie B.A study on dynamics of Al2 03- 率.钢铁研究学报，2000,12（增刊1）：46) Cao base pre-molten refining slag to absorb Al inclusion.Spec [12]Pinheiro C A,Samarasekera I V,Brimacombe J K.Mold flux for Steel,2005,26(1):21 continuous casting of steel.fron Steelmaker,1995,22(4):45 (赵和明，王新华，谢兵.A山20，C0基预熔精炼渣吸收AL,03夹 [13]Nakano T,Kishi T,Koyama K,et al.Mold powder technology 杂的动力学研究.特殊钢，2005,26(1)：21) for continuous casting of aluminum-illed steel.Trans fron Steel Zhang J,Yu H X,Wang X H,et al.Effect of refining slag com- Inst Jpn,1984,12(11):950 position on non-metallic inclusions in high-strength low-alloy steel. [14]Emi T.Influence of physical and chemical properties of mold J Unir Sci Technol Beijing,2011,33(7):828 powders on the solidification and occurrence of surface defects of (张静，于会香，王新华，等.精炼渣成分对高强度低合金钢 strand cast slabs /Continuous Casting.The Iron Steel Society 中非金属夹杂物影响.北京科技大学学报，2011,33(7)： of AIME,1983:135 828) 5]Liu L.A proposal to establish a platform for manufacturing high [10]Li W.The Non-Metallic Inclusions in Steel.Beijing:Metallurgi- efficiency and low cost clean steel.Iron Steel,2010,45(1):1 cal Industry Press,1988:58 (刘浏.如何建立高效低成本洁净钢平台.钢铁，2010,45 (李为.钢中非金属夹杂物.北京：治金工业出版社，1988， (1):1)李 翔等: 铝耗及终脱氧氧位对 IF 钢水口结瘤的影响 物的成因分析． 炼钢，2008，24(6): 41) ［7］ Singh S N． Mechanism ofalumina buildup in tundish nozzles dur￾ing continuous casting of aluminum-killed steels． Metall Trans， 1974，5: 2165 ［8］ Zhao H M，Wang X H，Xie B． A study on dynamics of Al2 O3-- CaO base pre-molten refining slag to absorb Al2O3 inclusion． Spec Steel，2005，26(1): 21 (赵和明，王新华 ，谢兵． Al2O3 --CaO 基预熔精炼渣吸收 Al2O3夹 杂的动力学研究． 特殊钢，2005，26(1): 21) ［9］ Zhang J，Yu H X，Wang X H，et al． Effect of refining slag com￾position on non-metallic inclusions in high-strength low-alloy steel． J Univ Sci Technol Beijing，2011，33(7): 828 (张静，于会香，王新华，等． 精炼渣成分对高强度低合金钢 中非金属夹杂物影响． 北京科技大学学报，2011，33 (7 ): 828) ［10］ Li W． The Non-Metallic Inclusions in Steel． Beijing: Metallurgi￾cal Industry Press，1988: 58 (李为． 钢中非金属夹杂物． 北 京:冶金工业出版社，1988， 58) ［11］ Liu C J，Wang Y S，Zhu Y X，et al． Absorptive rate of mold powder on inclusion． J Iron Steel Res，2000，12(Suppl 1): 46 (刘承军，王云盛，朱英雄，等． 连铸保护渣的夹杂物吸收速 率． 钢铁研究学报，2000，12(增刊 1): 46) ［12］ Pinheiro C A，Samarasekera I V，Brimacombe J K． Mold flux for continuous casting of steel． Iron Steelmaker，1995，22(4): 45 ［13］ Nakano T，Kishi T，Koyama K，et al． Mold powder technology for continuous casting of aluminum-killed steel． Trans Iron Steel Inst Jpn，1984，12(11): 950 ［14］ Emi T． Influence of physical and chemical properties of mold powders on the solidification and occurrence of surface defects of strand cast slabs / / Continuous Casting． The Iron ＆ Steel Society of AIME，1983: 135 ［15］ Liu L． A proposal to establish a platform for manufacturing high efficiency and low cost clean steel． Iron Steel，2010，45(1): 1 (刘浏． 如何建立高效低成本洁净钢平台． 钢铁，2010，45 (1): 1) ·705·