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(吴胜利，裴元东，陈辉，等.铁矿粉烧结液相流动性评价.北 18(5):11 京科技大学学报，2008,30(10)：1095) [15]Liu D M,Loo C E,Pinson D,et al.Understanding coalescence [4]Xiao Z X,Chen L K,Yang Y D,et al.Effect of coarse-grain and in iron ore sintering using two bench-scale techniques.ISI/Int, low-grade iron ores on sinter properties.ISIJ Int,2017,57(5): 2014,54(10):2179 795 016]Sinha M,Nistala S H,Chandra S,et al.Thermodynamic study [5]Sinha M.Nistala S H,Chandra S,et al.Correlating mechanical of evolution of sinter phases at different alumina level.fronmak- properties of sinter phases with their chemistry and its effect on sin- ing Steelmaking,2017,44(2):92 ter quality.Ironmaking Steelmaking,2017,44(2)100 [17]Scarlett N V Y,Madsen I C,Pownceby M I,et al.In situ X-tay 6]Yan LJ,Wu SL,You Y,et al.Study on liquid phase fluidity of diffraction analysis of iron ore sinter phases.J Appl Cryst,2004, iron ores and its complementary ore proportioning.Sinter Pelletiz, 37(3):362 2013,38(6):1 [8]Sukenaga S,Gonda Y,Yoshimura S,et al.Viscosity measure- (阁丽娟，吴胜利，尤艺，等.各种铁矿粉的液相流动性及其 ment of calcium ferrite based slags during structural relaxation 互补配矿方法的研究.烧结球团，2013,38(6)：1) proces5.ISIJ Int,2010,50(2):195吴胜利等: 铁矿粉液相流动性的主要液相生成特征因素解析 动能力，而试验测定的有效液相温度则可以较好的 反映铁矿粉的液相流动性，铁矿粉的液相流动性指 数随着有效液相生成温度的升高而呈降低趋势． ( 3) 烧结温度条件下的液相生成量是影响铁矿 粉液相流动性的最主要液相生成特征因素，且铁矿 粉的液相生成量与液相流动性指数之间呈较好的线 性相关关系，液相生成量越多铁矿粉的液相流动性 指数越大． 各铁矿粉之间液相流动性的配合性热力 学基础为铁矿粉的液相生成量具有叠加性． 参 考 文 献 ［1］ Wu S L，Liu Y，Du J X，et al． New concept of iron ores sintering basic characteristics． J Univ Sci Technol Beijing，2002，24( 3) : 254 ( 吴胜利，刘宇，杜建新，等． 铁矿石的烧结基础特性之新概 念． 北京科技大学学报，2002，24( 3) : 254) ［2］ Wu S L，Du J X，Ma H B，et al． Fluidity of liquid phase in iron ores during sintering． J Univ Sci Technol Beijing，2005，27( 3) : 291 ( 吴胜利，杜建新，马洪斌，等． 铁矿粉烧结液相流动特性． 北京科技大学学报，2005，27( 3) : 291) ［3］ Wu S L，Pei Y D，Chen H，et al． Evaluation on liquid phase flu￾idity of iron ore in sintering． J Univ Sci Technol Beijing，2008，30 ( 10) : 1095 ( 吴胜利，裴元东，陈辉，等． 铁矿粉烧结液相流动性评价． 北 京科技大学学报，2008，30( 10) : 1095) ［4］ Xiao Z X，Chen L K，Yang Y D，et al． Effect of coarse-grain and low-grade iron ores on sinter properties． ISIJ Int，2017，57( 5) : 795 ［5］ Sinha M，Nistala S H，Chandra S，et al． Correlating mechanical properties of sinter phases with their chemistry and its effect on sin￾ter quality． Ironmaking Steelmaking，2017，44( 2) : 100 ［6］ Yan L J，Wu S L，You Y，et al． Study on liquid phase fluidity of iron ores and its complementary ore proportioning． Sinter Pelletiz， 2013，38( 6) : 1 ( 阎丽娟，吴胜利，尤艺，等． 各种铁矿粉的液相流动性及其 互补配矿方法的研究． 烧结球团，2013，38( 6) : 1) ［7］ Oliveira D，Wu S L，Dai Y M，et al． Sintering properties and op￾timal blending schemes of iron ores． J Iron Steel Ｒes Int，2012，19 ( 6) : 1 ［8］ Xiao Z X，Chen L K，Xue Z L，et al． Improvement of sinter strength by proportioning powdered ores at WISCO． J Iron Steel Ｒes，2014，26( 9) : 27 ( 肖志新，陈令坤，薛正良，等． 改善武钢铁矿粉烧结强度的 配矿试验． 钢铁研究学报，2014，26( 9) : 27) ［9］ Wu S L，Zhang G L，Chen S G，et al． Influencing factors and effects of assimilation characteristic of iron ores in sintering process． ISIJ Int，2014，54( 3) : 582 ［10］ Lü X W，Bai C G，Deng Q Y，et al． Behavior of liquid phase formation during iron ores sintering． ISIJ Int，2011，51( 5) : 722 ［11］ Peng J，Zhang L，Liu L X，et al． Ｒelationship between liquid fluidity of iron ore and generated liquid content during sintering． Metall Mater Trans B，2017，48( 1) : 538 ［12］ Okazaki J，Higuchi K，Hosotani Y，et al． Influence of iron ore characteristics on penetrating behavior of melt into ore layer． ISIJ Int，2003，43( 9) : 1384 ［13］ Wu S L，Bian M L，Wang Q F，et al． Fusion characteristics of iron ore fines and its evaluation method． J Univ Sci Technol Bei￾jing，2010，32( 12) : 1526 ( 吴胜利，边妙莲，王清峰，等． 铁矿粉的烧结熔融特性及其 评价方法． 北京科技大学学报，2010，32( 12) : 1526) ［14］ Li H G，Zhang J L，Pei Y D，et al． Melting characteristics of iron ore fine during sintering process． J Iron Steel Ｒes Int，2011， 18( 5) : 11 ［15］ Liu D M，Loo C E，Pinson D，et al． Understanding coalescence in iron ore sintering using two bench-scale techniques． ISIJ Int， 2014，54( 10) : 2179 ［16］ Sinha M，Nistala S H，Chandra S，et al． Thermodynamic study of evolution of sinter phases at different alumina level． Ironmak￾ing Steelmaking，2017，44( 2) : 92 ［17］ Scarlett N V Y，Madsen I C，Pownceby M I，et al． In situ X-ray diffraction analysis of iron ore sinter phases． J Appl Cryst，2004， 37( 3) : 362 ［18］ Sukenaga S，Gonda Y，Yoshimura S，et al． Viscosity measure￾ment of calcium ferrite based slags during structural relaxation process． ISIJ Int，2010，50( 2) : 195 · 923 ·