工程科学学报 DOI: pellet.Journal ofCentral South University,2014,45(02):341-347 (黄柱成，李铁辉，易凌云，等.纤维化膨润土制备及其在铁精刊矿球团中的应用.中南大学学报，2014， 45(02):341-347) [17]Zhang Y B,Ouyang X Z,Lu MM,et al.Application effect of humic acid modified bentonite binder in iron ore pellet.Sintering and Pelletizing 2018,43(04):27-32 (张元波，欧阳学臻，路漫漫，等.腐植酸改性膨润土在铁矿球团中的应用效果.烧结球团，2018,43(04)： 27-32) [18]Xie X L,Duan T,Guo YF,et al.Study of magnetite oxidized pellet prepared by modified composite binder. Metal Mine,2018(01):79-83 (谢小林，段婷，郭宇峰，等.改性复合黏结剂制备磁铁矿氧化球团研究.金属矿山，2018(01)：79-83) [19]Pan S X,Sun WJ,Zhang R D,et al.Data analysis and SPSS software application.Jourmal of Jilin Medical College,2005,26(003)145-147 (潘淑霞，孙王杰，张若东，等.数据分析与SPSS软件应用，吉林医药学院学 报2005.26(003：145- 147) [20]Xu K C,Bi L P,Chen MC,et al.Prediction model of compressive strength of lithium slag concrete based on SPSS regression analysis.Journal of Architecture and Civil Engineering,017,34(001):15-24 (许开成，毕丽苹，陈梦成，等.基于SPSS回归分析的锂渣混凝玉抗压强度预测模型.建筑科学与工程 学报.2017.34(001：15-24) [21]Liu L F.Micromechanics study on agglomerate impact breakage Tances in Mechanics,2006(04):599-610 (刘连峰.颗粒聚合体碰撞破损的细观力学仿真研究力学进展，2006(04)599-610) [22]Orr F M,Scriven L E,Rivas A P.Pendular rings meniscus properties and capillary force. Journal of Fluid Mechanics,1975,67(4):723-742 [23]Wei R F,Li J X,Tang G W,et al.Strength and consolidation mechanism of iron ore and coal pellets. Ironmaking Steelmaking,2014,41(7) [24]Pan J,Tian H Y,Zhu D Q,et al.Particle size and wettability effect of ultrafine magnetite concentrate on ballability.Chinese Journal of Engineering,2017,39(6):830-837. (潘建，田宏宇，朱德庆，等 超微细铁精矿的粒度特性和润湿性对其成球性能的交互影响.工程科学学 报.2017,396：830-837 [25]Hotta Kazuyuki,Takeda Kazuo,Iinoya Koichi.The capillary binding force of a liquid bridge.Elsevier.1974. 10(4-5) [26]Davis R H,Sefayssol J M.Hinch E J.The elastohydrodynamic collision of two spheres.Journal of Fluid Mechanics,.2006630l):479-497 [27]Lian G.Adams M J,Thornton C.Elastohydrodynamic collisions of solid spheres.Journal of Fluid Mechanics,.1996,311(-1y141-152 [28]Adams M J.Perchard V.The cohesive forces between particles with interstitial liquid.1985 [29]Goldman A J.Cox R G,Brenner H.Slow viscous motion of a sphere parallel to a plane wall-II Couette flow.Chemical Engineering Science,1967,22(4):653-660 [30]Liu L F,Wang Z Y,Wang C,et al.Simulations of impact attrition of cuboidal and spherical wet agglomerate of fine particles.Chinese Journal of Applied Mechanics,2020,37(05):1929-1934+2314-2315 (刘连峰，王振阳，王超，等.球形和方形湿颗粒团的碰撞模拟研究.应用力学学报，2020,37(05)：1929- 1934+2314-2315)工程科学学报 DOI: pellet. Journal of Central South University, 2014, 45(02): 341-347 （黄柱成, 李铁辉, 易凌云, 等. 纤维化膨润土制备及其在铁精矿球团中的应用. 中南大学学报, 2014, 45(02): 341-347） [17] Zhang Y B, Ouyang X Z, Lu M M, et al. Application effect of humic acid modified bentonite binder in iron ore pellet. Sintering and Pelletizing 2018, 43(04): 27-32 （张元波, 欧阳学臻, 路漫漫, 等. 腐植酸改性膨润土在铁矿球团中的应用效果. 烧结球团, 2018, 43(04): 27-32） [18] Xie X L, Duan T, Guo Y F, et al. Study of magnetite oxidized pellet prepared by modified composite binder. Metal Mine, 2018(01): 79-83 （谢小林, 段婷, 郭宇峰, 等. 改性复合黏结剂制备磁铁矿氧化球团研究. 金属矿山, 2018(01): 79-83） [19] Pan S X, Sun W J, Zhang R D, et al. Data analysis and SPSS software application. Journal of Jilin Medical College,2005,26(003): 145-147 （潘淑霞, 孙王杰, 张若东, 等. 数据分析与 SPSS 软件应用. 吉林医药学院学报, 2005, 26(003): 145- 147） [20] Xu K C, Bi L P, Chen M C, et al. Prediction model of compressive strength of lithium slag concrete based on SPSS regression analysis. Journal of Architecture and Civil Engineering, 2017, 34(001): 15-24 （许开成, 毕丽苹, 陈梦成, 等. 基于 SPSS 回归分析的锂渣混凝土抗压强度预测模型. 建筑科学与工程 学报, 2017, 34(001): 15-24） [21] Liu L F. Micromechanics study on agglomerate impact breakage. Advances in Mechanics, 2006(04): 599-610 （刘连峰. 颗粒聚合体碰撞破损的细观力学仿真研究. 力学进展, 2006(04): 599-610） [22] Orr F M, Scriven L E, Rivas A P. Pendular rings between solids: meniscus properties and capillary force. Journal of Fluid Mechanics, 1975, 67(4): 723-742 [23] Wei R F, Li J X, Tang G W, et al. Strength and consolidation mechanism of iron ore and coal pellets. Ironmaking & Steelmaking, 2014, 41(7) [24] Pan J, Tian H Y, Zhu D Q, et al. Particle size and wettability effect of ultrafine magnetite concentrate on ballability. Chinese Journal of Engineering, 2017, 39(6): 830-837. （潘建, 田宏宇, 朱德庆, 等. 超微细铁精矿的粒度特性和润湿性对其成球性能的交互影响. 工程科学学 报, 2017, 39(6): 830-837） [25] Hotta Kazuyuki, Takeda Kazuo, Iinoya Koichi. The capillary binding force of a liquid bridge. Elsevier, 1974, 10(4-5) [26] Davis R H, Serayssol J M, Hinch E J. The elastohydrodynamic collision of two spheres. Journal of Fluid Mechanics, 2006, 163(-1): 479-497 [27] Lian G, Adams M J, Thornton C. Elastohydrodynamic collisions of solid spheres. Journal of Fluid Mechanics, 1996, 311(-1): 141-152 [28] Adams M J, Perchard V. The cohesive forces between particles with interstitial liquid. 1985 [29] Goldman A J, Cox R G, Brenner H. Slow viscous motion of a sphere parallel to a plane wall—II Couette flow. Chemical Engineering Science, 1967, 22(4): 653-660 [30] Liu L F, Wang Z Y, Wang C, et al. Simulations of impact attrition of cuboidal and spherical wet agglomerate of fine particles. Chinese Journal of Applied Mechanics, 2020, 37(05): 1929-1934+2314-2315 （刘连峰, 王振阳, 王超,等. 球形和方形湿颗粒团的碰撞模拟研究. 应用力学学报, 2020, 37(05): 1929- 1934+2314-2315） 录用稿件，非最终出版稿