·1176· 工程科学学报，第40卷，第10期 study on the rheological properties of tailings backfill.Northeast (闫浩，张吉雄，张升，等.散体充填材料压实力学特性的宏 Univ Nat Sci,2015,36(6):882 细观研究.煤炭学报，2017,42(2)：413) (蔡嗣经，黄刚，吴迪，等.尾砂充填料浆流变性能模型与试 [19]Zhang L W,Zhang J M,Zhang G.Microfabric analysis tech- 验研究.东北大学学报（自然科学版），2015,36(6)：882) nique for granular materials based on digital images.Chin [14]Ke X,Hou H B,Zhou M,et al.Effect of particle gradation on Geotech Eng,2008,30(10):1555 properties of fresh and hardened cemented paste backfill.Constr (张连卫，张建民，张嘎.基于数字图像的粒状材料细观组 Build Mater,2015,96:378 构特征分析技术.岩土工程学报，2008,30(10)：1555) [15]Chen B W,Mei F D.Yang L,et al.Research on gradation of [20]Wu A X,Ai C M,Wang Y M,et al.Test and mechanism analy- coarse phosphate tailings cemented paste backfill and rule of sis on improving rheological property of paste with pumping workability of slurry.Sci Technol Eng,2015,15(13):25 agent.J Cent South Unie Sci Technol,2016,47(8):2752 (陈博文，梅甫定，杨柳，等.粗磷尾矿胶结充填级配及料浆 (吴爱祥，艾纯明，王贻明，等。泵送剂改善膏体流变性能试 和易性规律研究.科学技术与工程，2015,15(13)：25) 验及机理分析.中南大学学报（自然科学版），2016,47(8)： [16]Zhang J B,An X H,Nie D.Effect of fine aggregate characteris- 2752) tics on the thresholds of self-compacting paste rheological proper- [21]Liu GQ.Discrete Element Methods of Fine Particle Dynamics in ties.Constr Build Mater,2016,116:355 Presence of van der Waals and Electrostatic Forces Dissertation ] [17]Qiu Y Q.Liu CS.Study of the size of particles and the compost- Beijing:Tsinghua University,2011 tion of sediment in high concentration slurry pipeline transporta- (柳冠青.范德华力和静电力下的细颗粒离散动力学研究 tion.J Guizhou Unig Technol,1998,27(3):58 [学位论文].北京：清华大学，2011) (邱跃琴，刘春生.管道输送高浓度工业浆体的粒径与级配 [22]Wu A X,Liu X H,Wang H J,et al.Microstructural evolution 的探讨.贵州工业大学学报，1998,27(3)：58) characteristics of an unclassified tailing paste in constant shear [18]Yan H,Zhang J X,Zhang S,et al.Macro-micro research on ing.Chin J Eng,2015,37(2):145 compaction properties of granular backfilling materials.J China (吴爱祥，刘晓辉，王洪江，等.恒定剪切作用下全尾膏体微 Coal Soc,2017,42(2):413 观结构演化特征.工程科学学报，2015,37(2)：145)工程科学学报,第 40 卷,第 10 期 study on the rheological properties of tailings backfill. J Northeast Univ Nat Sci, 2015, 36(6): 882 (蔡嗣经, 黄刚, 吴迪, 等. 尾砂充填料浆流变性能模型与试 验研究. 东北大学学报(自然科学版), 2015, 36(6): 882) [14] Ke X, Hou H B, Zhou M, et al. Effect of particle gradation on properties of fresh and hardened cemented paste backfill. Constr Build Mater, 2015, 96: 378 [15] Chen B W, Mei F D, Yang L, et al. Research on gradation of coarse phosphate tailings cemented paste backfill and rule of workability of slurry. Sci Technol Eng, 2015, 15(13): 25 (陈博文, 梅甫定, 杨柳, 等. 粗磷尾矿胶结充填级配及料浆 和易性规律研究. 科学技术与工程, 2015, 15(13): 25) [16] Zhang J B, An X H, Nie D. Effect of fine aggregate characteris鄄 tics on the thresholds of self鄄compacting paste rheological proper鄄 ties. Constr Build Mater, 2016, 116: 355 [17] Qiu Y Q, Liu C S. Study of the size of particles and the compost鄄 tion of sediment in high concentration slurry pipeline transporta鄄 tion. J Guizhou Univ Technol, 1998, 27(3): 58 (邱跃琴, 刘春生. 管道输送高浓度工业浆体的粒径与级配 的探讨. 贵州工业大学学报, 1998, 27(3): 58) [18] Yan H, Zhang J X, Zhang S, et al. Macro鄄micro research on compaction properties of granular backfilling materials. J China Coal Soc, 2017, 42(2): 413 (闫浩, 张吉雄, 张升, 等. 散体充填材料压实力学特性的宏 细观研究. 煤炭学报, 2017, 42(2): 413) [19] Zhang L W, Zhang J M, Zhang G. Microfabric analysis tech鄄 nique for granular materials based on digital images. Chin J Geotech Eng, 2008, 30(10): 1555 (张连卫, 张建民, 张嘎. 基于数字图像的粒状材料细观组 构特征分析技术. 岩土工程学报, 2008, 30(10): 1555) [20] Wu A X, Ai C M, Wang Y M, et al. Test and mechanism analy鄄 sis on improving rheological property of paste with pumping agent. J Cent South Univ Sci Technol, 2016, 47(8): 2752 (吴爱祥, 艾纯明, 王贻明, 等. 泵送剂改善膏体流变性能试 验及机理分析. 中南大学学报(自然科学版), 2016, 47(8): 2752) [21] Liu G Q. Discrete Element Methods of Fine Particle Dynamics in Presence of van der Waals and Electrostatic Forces [Dissertation]. Beijing: Tsinghua University, 2011 (柳冠青. 范德华力和静电力下的细颗粒离散动力学研究 [学位论文]. 北京: 清华大学, 2011) [22] Wu A X, Liu X H, Wang H J, et al. Microstructural evolution characteristics of an unclassified tailing paste in constant shear鄄 ing. Chin J Eng, 2015, 37(2): 145 (吴爱祥, 刘晓辉, 王洪江, 等. 恒定剪切作用下全尾膏体微 观结构演化特征. 工程科学学报, 2015, 37(2): 145) ·1176·