.796 工程科学学报,第43卷,第6期 entrapment behavior based on PIV technology.Chin J Eng,2016, 京科技大学,2019) 38(5):637 [23]Zhang J.Coexistence theory of slag structure and its application to (吴华杰,张漓,徐阳,等.基于PV技术的钢包临界卷渣行为水 calculation of oxidizing capability of slag melts.J /ron Steel Res, 模型研究.工程科学学报,2016,38(5):637) 2003,10(1):1 [18]Ohguchi S,Robertson D G C.Deo B,et al.Simultaneous [24]Li S,Zheng X M,Ma A Y,et al.Construction and application of dephosphorization and desulphurization of molten pig iron. activity models for CaO-SiO-ALO-TiO slag system.ChinJ Ironmaking Steelmaking,1984,11(4):202 Rare Met,,2020,44(5):540 [19]Harada A,Maruoka N,Shibata H,et al.A kinetic model to predict (李松,郑雪梅,马爱元,等.Ca0-Si02-Al,0,-Ti02渣系活度计 the compositions of metal,slag and inclusions during ladle 算模型的建立及应用.稀有金属,2020,44(5):540) refining:Part 1.basic concept and application.ISI/Int,2013, [25]Ren Y,Zhang L F,Pistorius P C.Transformation of oxide 53(12):2110 inclusions in Type 304 Stainless Steels during heat treatment. [20]Harada A,Maruoka N,Shibata H,et al.A kinetic model to predict Metall Mater Trans B,2017,48(5):2281 the compositions of metal,slag and inclusions during ladle [26]Yang W,Guo C B,Zhang L F,et al.Evolution of oxide inclusions refining:Part 2.condition to control the inclusion composition in Si-Mn killed steels during hot-rolling process.Metall Mater IJ1m,2013,53(12上:2118 Trans B,2017,48(5上:2717 [21]Zhang Y,Ren Y,Zhang L F.Kinetic study on compositional [27]Cheng G,Li W F,Zhang X G,et al.Transformation of inclusions variations of inclusions,steel and slag during refining process in solid GCr15 bearing steels during heat treatment.Metals,2019, Metall Res Technol,2018,115(4):415 9(6):642 [22]Zhang Y.Kinetic Study on Composiitoal Variations of Steel,Slag [28]Chu Y P,Li W F,Ren Y,et al.Transformation of inclusions in and Incluisons in a Multiphase System of "Steel-Slag -Incluison- linepipe steels during heat treatment.Metall Mater Trans B,2019, Refractory-Alloy-Air'TDissertation].Beijing:University of Science 50(4):2047 and Technology Beijing,2019 [29]Wang J J,Li W F,Ren Y,et al.Thermodynamic and kinetic (张莹.“钢一渣-夹杂物-耐火材料-合金-空气”六相多元体系下 analysis for transformation of oxide inclusions in solid 304 的钢、渣和夹杂物成分变化的动力学研究学位论文]北京:北 stainless steels.Steel Res Int,2019,90(7):1800600entrapment behavior based on PIV technology. Chin J Eng, 2016, 38(5): 637 (吴华杰, 张漓, 徐阳, 等. 基于PIV技术的钢包临界卷渣行为水 模型研究. 工程科学学报, 2016, 38(5):637) Ohguchi S, Robertson D G C, Deo B, et al. Simultaneous dephosphorization and desulphurization of molten pig iron. Ironmaking Steelmaking, 1984, 11(4): 202 [18] Harada A, Maruoka N, Shibata H, et al. A kinetic model to predict the compositions of metal, slag and inclusions during ladle refining: Part 1. basic concept and application. ISIJ Int, 2013, 53(12): 2110 [19] Harada A, Maruoka N, Shibata H, et al. A kinetic model to predict the compositions of metal, slag and inclusions during ladle refining: Part 2. condition to control the inclusion composition. ISIJ Int, 2013, 53(12): 2118 [20] Zhang Y, Ren Y, Zhang L F. Kinetic study on compositional variations of inclusions, steel and slag during refining process. Metall Res Technol, 2018, 115(4): 415 [21] Zhang Y. Kinetic Study on Composiitoal Variations of Steel, Slag and Incluisons in a Multiphase System of “Steel-Slag -IncluisonRefractory-Alloy-Air”[Dissertation]. Beijing: University of Science and Technology Beijing, 2019 ( 张莹. “钢–渣–夹杂物–耐火材料–合金–空气”六相多元体系下 的钢、渣和夹杂物成分变化的动力学研究[学位论文]. 北京: 北 [22] 京科技大学, 2019) Zhang J. Coexistence theory of slag structure and its application to calculation of oxidizing capability of slag melts. J Iron Steel Res, 2003, 10(1): 1 [23] Li S, Zheng X M, Ma A Y, et al. Construction and application of activity models for CaO ‒SiO2‒Al2O3‒TiO2 slag system. Chin J Rare Met, 2020, 44(5): 540 (李松, 郑雪梅, 马爱元, 等. CaO–SiO2–Al2O3–TiO2渣系活度计 算模型的建立及应用. 稀有金属, 2020, 44(5):540) [24] Ren Y, Zhang L F, Pistorius P C. Transformation of oxide inclusions in Type 304 Stainless Steels during heat treatment. Metall Mater Trans B, 2017, 48(5): 2281 [25] Yang W, Guo C B, Zhang L F, et al. Evolution of oxide inclusions in Si ‒Mn killed steels during hot-rolling process. Metall Mater Trans B, 2017, 48(5): 2717 [26] Cheng G, Li W F, Zhang X G, et al. Transformation of inclusions in solid GCr15 bearing steels during heat treatment. Metals, 2019, 9(6): 642 [27] Chu Y P, Li W F, Ren Y, et al. Transformation of inclusions in linepipe steels during heat treatment. Metall Mater Trans B, 2019, 50(4): 2047 [28] Wang J J, Li W F, Ren Y, et al. Thermodynamic and kinetic analysis for transformation of oxide inclusions in solid 304 stainless steels. Steel Res Int, 2019, 90(7): 1800600 [29] · 796 · 工程科学学报,第 43 卷,第 6 期