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Coupled effects of cement type and water quality on the properties of cemented paste back鄄 fill. Int J Miner Process, 2015, 143: 65 [19] Wu A X, Wang Y, Wang H J. Estimation model for yield stress of fresh uncemented thickened tailings: coupled effects of true solid density, bulk density, and solid concentration. Int J Miner Process, 2015, 143: 117 [20] Wang Y, Wu A X, Wang H J, et al. Further development of paste definition from the viewpoint of yield stress. J Univ Sci Technol Beijing, 2014, 36(7): 855 (王勇, 吴爱祥, 王洪江, 等. 从屈服应力角度完善膏体定 义. 北京科技大学学报, 2014, 36(7): 855) [21] Fall M, C佴lestin J, Sen H F. Potential use of densified polymer鄄 pastefill mixture as waste containment barrier materials. Waste Manage, 2010, 30(12): 2570 [22] Jewell R J, Fourie A B. Paste and Thickened Tailings—A Guide. 2nd Ed. Perth: Australian Centre for Geomechanics, 2006 [23] Liu T Y, Zhou C P, Jin M L, et al. Technology and Application on Cut and Fill Mining. 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Status and trend of paste disposal technology for superfine unclassified tailings. Min Techn鄄 ol, 2011, 11(3): 4 (吴爱祥, 杨盛凯, 王洪江, 等. 超细全尾膏体处置技术现状 与趋势. 采矿技术, 2011, 11(3): 4) [29] Wu A X, Wang Y, Wang H J, et al. Paste fill system designs for a broken and water鄄rich copper mine / / Paste 2014. Vancouver, 2014: 1 [30] Ruan Z E. Numerical Simulation of the Flocculation and Settling Behavior of the Whole鄄Tailings Particles in Deep鄄Cone Thickener [Dissertation]. Beijing: University of Science and Technology Beijing, 2015 (阮竹恩. 深锥浓密机中全尾颗粒运移行为模拟研究[学位 论文]. 北京: 北京科技大学, 2015) [31] Liu Q Q. LDV measurements and experimental study of water and sediment two鄄phase flow. J Sediment Res, 1998(2): 72 (刘青泉. 水鄄鄄沙两相流的激光多普勒分相测量和试验研究. 泥沙研究, 1998(2): 72) [32] Wang G Q. Theoretical and Experimental Study on the Motion of Solid鄄鄄 Liquid Two鄄Phase Flow and Particle Flow [Dissertation]. Beijing: Tsinghua University, 1989 (王光谦. 固液两相流与颗粒流的运动理论及实验研究[学 位论文]. 北京: 清华大学, 1989) [33] Wang D C, Yu M Z, Wang X K. Experimental study on the par鄄 ticle motion in open channel flow. J Basic Sci Eng, 2000, 8 (3): 301 (王殿常, 禹明忠, 王兴奎. 明槽水流中颗粒运动特性的试 验研究. 应用基础与工程科学学报, 2000, 8(3): 301) [34] Zou Y. Study on Water Hammer Characteristics of Solid鄄Liquid Mixture for Coarse Particle in Pipe Flow [Dissertation]. Beijing: Minzu University of China, 2016 (邹燚. 粗颗粒固液混合物在管流中水击特性研究[学位论 文]. 北京: 中央民族大学, 2016) [35] Wu A X, Cheng H Y, Wang Y M, et al. Transport resistance characteristic of paste pipeline considering effect of wall slip. Chin J Nonferrous Met, 2016, 26(1): 180 (吴爱祥, 程海勇, 王贻明, 等. 考虑管壁滑移效应膏体管道 的输送阻力特性. 中国有色金属学报, 2016, 26(1): 180) [36] Liu Q, Zhang X W. Overview of the research progress of the paste backfill technology in China. Mod Min, 2016(5): 1 (刘琼, 张希巍. 中国膏体充填技术研究进展概述. 现代矿 业, 2016(5): 1) [37] Ding D Q. Study on Theory and Technology of Paste Backfill in Goaf of Underground Mines [ Dissertation]. Changsha: Central South University, 2007 (丁德强. 矿山地下采空区膏体充填理论与技术研究[学位 论文]. 长沙: 中南大学, 2007) [38] Mitchell R J, Olsen R S, Smith J D. Model studies on cemented tailings used in mine backfill. Can Geotech J, 2011, 19(1): 14 [39] Li L. Generalized solution for mining backfill design. Int J Geo鄄 mech, 2013, 14(3): 04014006鄄1 [40] Li L, Aubertin M. A modified solution to assess the required strength of exposed backfill in mine stopes. Can Geotech J, 2012, 49(8): 994 [41] Zeng J J, Shui Z H, Wang G M. The early hydration and strength development of high鄄strength precast concrete with ce鄄 ment / metakaolin systems. J Wuhan Univ Technol Mater Sci Ed, 2010, 25(4): 712 [42] Li F X, Chen Y Z, Long S Z, et al. Properties and microstruc鄄 ture of marine concrete with composite mineral admixture. J Wu鄄 han Univ Technol Mater Sci Ed, 2009, 24(3): 497 [43] Wu A X, Wang Y, Wang H J. Status and prospects of the paste ·524·