88 工程科学学报.第42卷，增刊1 [8]Cheng R J,Ni H W,Zhang H,et al.Experimental study on arsenic Beijing,2016 removal from low arsenic-bearing iron ore with sintering process. (李文博.炼钢过程残余元素砷(As)脱除的应用基础研究学位 Sinter Pelletizing,2016,41(3):13 论文]北京：北京科技大学，2016) (成日金，倪红卫，张华，等.低砷铁矿石烧结脱砷试验研究烧 [17]Zhu Y Z,Li J C,Xu J P.Macroscopic distribution of residual 结球团，2016,41(3)：13) elements As,S and P in steel strips produced by compact strip [9]Liu S P,Sun S C.Dearsenication by vaporization during vacuum production(CSP)process.Metall Mater Trans A,2012,43(7): treatment of liquid steel.Special Steel,2002,23(3):1 2509 (刘守平，孙善长.钢液真空处理挥发脱砷.特殊钢，2002,23(3)： [18]Zhu Y Z,Li J C,Liang D M,et al.Distribution of arsenic on 1) micro-interfaces in a kind of Cr,Nb and Ti microalloyed low [10]Yao CC,Ding Y H,Huang B F.Study on related factors of carbon steel produced by a compact strip production process dearseinzation of hot metal with CaO-CaF2 slag.Res Iron Steel. Mater Chem Phys,2011,130(1-2):524 2013.41(1):14 [19]Xiao J G,Wang F M,Cheng H J.Effect of residual elements Cu, (姚柴柴，丁跃华，黄帮福.影响铁水用CaO-CaF,渣系脱砷的因 As and Sn on surface microcrack of hot rolled steel plate.Heat 素.钢铁研究，2013,41(1)：14) Treat Met,2010,35(12):102 [11]Zhang J S.Status and trend of exploitation and utilization of iron (肖寄光，王福明，程慧静.残余元素铜砷锡对钢板表面微裂纹 ore resources in China.Iron Steel,2007,42(2):1 形成的影响.金属热处理，2010,35(12)：102) (张泾生.我国铁矿资源开发利用现状及发展趋势.钢铁，2007， [20]Li S Q,Li S Q,Xiong G H,et al.Effect of residual deleterious 42(2):1) elements in steel on quality of tube for oil well.Special Steel, [12]Xiao J G.Interaction Benveen rare-earth (RE)element lanthanum 2003,24(4):31 (La)and Residual element arsenic (As)in Ship Hull (李素芹，李士琦，熊国宏，等.钢中残余有害元素对油井管质量 SteelDissertation].Beijing:University of Science and Technology 的影响.特殊钢，2003,24(4)：31) Beijing,2011 [21]An W.The Research on the Physical Characters of Alkaline-earth (肖寄光.稀土元素镧与船板钢中残余元素砷的相互作用[学位 Metals Alloys and Desulfurization of Hot MetalDissertation]. 论文].北京：北京科技大学，2011) Beijing:University of Science and Technology Beijing.2004 [13]Fu B.The Effect and Control Study of Tramp Elements in (安文.碱土金属及其合金的物性与其铁水脱硫研究[学位论文] SteelDissertation]Wuhan:University of Science and Technology 北京：北京科技大学，2004) Wuhan,2010 [22]Fu B,Xue Z L,Wu G L,et al.Experimental study on the (付兵.钢中残余元素的影响及其控制研究学位论文].武汉：武 dearsenization of hot metal with CaCz-CaF2 slag.Chin J Process 汉科技大学，2010) Eng,2010,10(Suppl1)E146 [14]Li W B,Bao Y P,Wang M,et al.Experimental study (付兵，薛正良，吴光亮，等.铁水用CaC2-CaF2渣系脱砷研究.过 dearsenization of molten steel with different Ca alloys.Chin/Eng. 程工程学报，2010,10（增刊1：146） 2016,38(4):484 [23]Liu S P,Sun S C.A study on dearsenication of molten iron and (李文博，包燕平，王敏，等.不同钙合金对钢液脱砷作用的实验 liquid steel with Ca-Si alloy.Special Steel,2001,22(5):12 研究.工程科学学报，2016,38(4)：484) (刘守平，孙善长.钢液和铁水硅钙合金脱砷研究.特殊钢，2001， [15]Xin W B.Detriment of Arsenic on the Properties of Steel and 22(5):12) Improvement by Adding Rare Earth[Dissertation].Beijing: [24]Li W B,Bao Y P,Wang M,et al.Analysis of factors for Si-Ca-Ba University of Science and Technology Beijing,2016 alloy+CaF2 dearsenication of molten steel.Iron Steel,2015,50(9): (辛文彬.砷对钢性能的影响及稀土的改善作用研究学位论文] 17 北京：北京科技大学，2016) (李文博，包燕平，王敏，等.采用Si-Ca-Ba合金+CaF2进行钢液 [16]Li W B.The Applied Fundamental Research on the Removal of 脱砷的因素分析.钢铁，2015,50(9)：17) Residual Element Arsenic during Steelmaking Process [25]Harada T,Tanaka H.Future steelmaking model by direct reduction [Dissertation].Beijing:University of Science and Technology technologies.ISI/Int,2011,51(8):1301Cheng R J, Ni H W, Zhang H, et al. Experimental study on arsenic removal from low arsenic-bearing iron ore with sintering process. Sinter Pelletizing, 2016, 41（3）: 13 （成日金, 倪红卫, 张华, 等. 低砷铁矿石烧结脱砷试验研究. 烧 结球团, 2016, 41（3）：13） [8] Liu S P, Sun S C. Dearsenication by vaporization during vacuum treatment of liquid steel. Special Steel, 2002, 23（3）: 1 （刘守平, 孙善长. 钢液真空处理挥发脱砷. 特殊钢, 2002, 23（3）： 1） [9] Yao C C, Ding Y H, Huang B F. Study on related factors of dearseinzation of hot metal with CaO –CaF2 slag. Res Iron Steel, 2013, 41（1）: 14 （姚柴柴, 丁跃华, 黄帮福. 影响铁水用CaO–CaF2渣系脱砷的因 素. 钢铁研究, 2013, 41（1）：14） [10] Zhang J S. Status and trend of exploitation and utilization of iron ore resources in China. Iron Steel, 2007, 42（2）: 1 （张泾生. 我国铁矿资源开发利用现状及发展趋势. 钢铁, 2007, 42（2）：1） [11] Xiao J G. Interaction Between rare-earth (RE) element lanthanum (La) and Residual element arsenic (As) in Ship Hull Steel[Dissertation]. Beijing: University of Science and Technology Beijing, 2011 （肖寄光. 稀土元素镧与船板钢中残余元素砷的相互作用[学位 论文]. 北京 : 北京科技大学, 2011） [12] Fu B. The Effect and Control Study of Tramp Elements in Steel[Dissertation]. Wuhan: University of Science and Technology Wuhan, 2010 （付兵. 钢中残余元素的影响及其控制研究[学位论文]. 武汉 : 武 汉科技大学, 2010） [13] Li W B, Bao Y P, Wang M, et al. Experimental study dearsenization of molten steel with different Ca alloys. Chin J Eng, 2016, 38（4）: 484 （李文博, 包燕平, 王敏, 等. 不同钙合金对钢液脱砷作用的实验 研究. 工程科学学报, 2016, 38（4）：484） [14] Xin W B. Detriment of Arsenic on the Properties of Steel and Improvement by Adding Rare Earth[Dissertation]. Beijing: University of Science and Technology Beijing, 2016 （辛文彬. 砷对钢性能的影响及稀土的改善作用研究[学位论文]. 北京 : 北京科技大学, 2016） [15] Li W B. The Applied Fundamental Research on the Removal of Residual Element Arsenic during Steelmaking Process [Dissertation]. Beijing: University of Science and Technology [16] Beijing, 2016 （李文博. 炼钢过程残余元素砷(As)脱除的应用基础研究[学位 论文]. 北京 : 北京科技大学, 2016） Zhu Y Z, Li J C, Xu J P. Macroscopic distribution of residual elements As, S and P in steel strips produced by compact strip production (CSP) process. Metall Mater Trans A, 2012, 43（7）: 2509 [17] Zhu Y Z, Li J C, Liang D M, et al. Distribution of arsenic on micro-interfaces in a kind of Cr, Nb and Ti microalloyed low carbon steel produced by a compact strip production process. Mater Chem Phys, 2011, 130（1-2）: 524 [18] Xiao J G, Wang F M, Cheng H J. Effect of residual elements Cu, As and Sn on surface microcrack of hot rolled steel plate. Heat Treat Met, 2010, 35（12）: 102 （肖寄光, 王福明, 程慧静. 残余元素铜砷锡对钢板表面微裂纹 形成的影响. 金属热处理, 2010, 35（12）：102） [19] Li S Q, Li S Q, Xiong G H, et al. Effect of residual deleterious elements in steel on quality of tube for oil well. Special Steel, 2003, 24（4）: 31 （李素芹, 李士琦, 熊国宏, 等. 钢中残余有害元素对油井管质量 的影响. 特殊钢, 2003, 24（4）：31） [20] An W. The Research on the Physical Characters of Alkaline-earth Metals Alloys and Desulfurization of Hot Metal[Dissertation]. Beijing: University of Science and Technology Beijing, 2004 （安文. 碱土金属及其合金的物性与其铁水脱硫研究[学位论文]. 北京 : 北京科技大学, 2004） [21] Fu B, Xue Z L, Wu G L, et al. Experimental study on the dearsenization of hot metal with CaC2–CaF2 slag. Chin J Process Eng, 2010, 10(Suppl 1): 146 （付兵, 薛正良, 吴光亮, 等. 铁水用CaC2–CaF2渣系脱砷研究. 过 程工程学报, 2010, 10(增刊1): 146） [22] Liu S P, Sun S C. A study on dearsenication of molten iron and liquid steel with Ca‒Si alloy. Special Steel, 2001, 22（5）: 12 （刘守平, 孙善长. 钢液和铁水硅钙合金脱砷研究. 特殊钢, 2001, 22（5）：12） [23] Li W B, Bao Y P, Wang M, et al. Analysis of factors for Si‒Ca‒Ba alloy+CaF2 dearsenication of molten steel. Iron Steel, 2015, 50（9）: 17 （李文博, 包燕平, 王敏, 等. 采用Si‒Ca‒Ba合金+CaF2进行钢液 脱砷的因素分析. 钢铁, 2015, 50（9）：17） [24] Harada T, Tanaka H. Future steelmaking model by direct reduction technologies. ISIJ Int, 2011, 51（8）: 1301 [25] · 88 · 工程科学学报，第 42 卷，增刊 1