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尹升华等:不同粗骨料对膏体凝结性能的影响及配比优化 837 strength of concrete.Fujian building mater,2018,203(3):17 paste with coarse aggregate.J Cent South Univ Sci Technol,2020, (邓树峰.钢渣粉对混凝土凝结时间和强度的影响研究.福建建 51(2):478 材,2018.203(3):17) (尹升华,刘家明,邵亚建,等.全尾砂-粗骨料膏体早期抗压强 [6]Wang F Z.Wang H J,Li G C.et al.Study on the effect of 度影响规律及固化机理.中南大学学报:自然科学版,2020, aggregate size on paste setting property.Min Res Dev,2018, 51(2):478) 38(11):35 [15]Guo S M.Study on cementing materials and technology of mine (王方正,王洪江,李公成,等.骨料粒级对膏体凝结性能影响的 filling based on blast furnace water quenching slag.Gansu metall, 研究.矿业研究与开发,2018,38(11):35) 2007,29(4):01 [7]Elyamany H E,Abd E A E M,Elshaboury A M.Setting time and (郭生茂.基于高炉水淬渣的矿山胶结充填材料与工艺研究.甘 7-day strength of geopolymer mortar with various binders.Const 肃冶金,2007,29(4):01) Build Mater,2018,187:974 [16]Liu X H,Wu A X,Wang H J,et al.Influence mechanism and [8]Wang X F.Green mine construction planning scheme of jinchuan calculation model of CPB rheological parameters.Chin J Eng, no.2 mining area.Mod Min,2017(5):252 2017,39(2):190 (王晓帆.金川二矿区绿色矿山建设规划方案.现代矿业, (刘晓辉,吴爱祥,王洪江,等.膏体流变参数彩响机制及计算模 2017(5):252) 型.工程科学学报,2017,39(2):190) [9]Wu A X.Wang H J.Theory and Technology of Metal Mine [17]Yang L H,Wang H J,Wu A X,Li H,et al.Effect of mixing time Cemented Paste Backfill.Beijing:Science Press,2015 on hydration kinetics and mechanical property of cemented paste (吴爱祥,王洪江.金属矿膏体充填理论与技术.科学出版社, backfill.Constr Build Mater,2020,247:118516 2015) [18]Yan B H,Li C P,Wu A X,et al.Analysis of influencing factors of [10]Jiang L Z,Yan B L,Liu C,et al.Revision introduction of coarse particle migration in paste slurry pipeline.Chin J GB/T1346 water consumption for cement standard consistency, Nonferrous Met,2018,28(10):201 setting time and stability test method.Cement,2012(9):40 (颜丙恒,李翠平,吴爱样,等.膏体料浆管道输送中粗颗粒迁移 (江丽珍,颜碧兰,刘晨,等.GBT1346《水泥标准稠度用水量、 的影响因素分析.中国有色金属学报,2018,28(10):201) 凝结时间、安定性检验方法》修订内容介绍.水泥,2012(9):40) [9]Boger D V.Rheology and the resource industries.Chem Eng ci, [11]Yin S H,Wu A X,Hu K,et al.The effect of solid components on 2009,64(22):4525 the rheological and mechanical properties of cemented paste [20]Su J M,Ruan S Y,Wang Y L.MATLAB engineering mathematics. backfill.Miner Eng,2012,35:61 Beijing:Electronic Industry Press,2005 [12]Shi X Y.Effect of water-cement ratio on setting time of cement net (苏金明,阮沈勇,王永利.MATLAB工程数学.北京:电子工业 slurry.Sichuan Cement,2018(7):07 出版社,2005) (施潇韵.水灰比对水泥净浆凝结时间的影响.四川水泥, [21]Lan W T,Wu A X,Wang Y M.Formulation optimization and 2018(7):07) formation mechanism of condensate expansion and filling [13]Zhang L,Wang H J,Wu A X,et al.Effect of sodium sulfide on composites.Acta Mater Compos Sin,2019,36:2 setting property of filling paste in a lead-zinc mine.Met mine, (兰文涛,吴爱样,王贻明.凝水膨胀充填复合材料的配比优化 2016,45(9):44 与形成机制.复合材料学报,2019,36:2) (张磊,王洪江,吴爱祥,等.硫化钠对某铅锌矿充填膏体凝结性 [22]Zhang H T.The best value of multivariate functions.J Shanxi 能的影响.金属矿山,2016,45(9):44) Datong Univ Sci Technol,2017,33(5):1 [14]Yin S H,Liu J M,Shao Y J,et al.Influence rule of early (张海涛巧解多元函数的最值.山西大同大学学报:自然科学 compressive strength and solidification mechanism of full tailings 版,2017,33(5):1)strength of concrete. Fujian building mater, 2018, 203(3): 17 (邓树峰. 钢渣粉对混凝土凝结时间和强度的影响研究. 福建建 材, 2018, 203(3):17) Wang F Z, Wang H J, Li G C, et al. Study on the effect of aggregate size on paste setting property. Min Res Dev, 2018, 38(11): 35 (王方正, 王洪江, 李公成, 等. 骨料粒级对膏体凝结性能影响的 研究. 矿业研究与开发, 2018, 38(11):35) [6] Elyamany H E, Abd E A E M, Elshaboury A M. Setting time and 7-day strength of geopolymer mortar with various binders. Constr Build Mater, 2018, 187: 974 [7] Wang X F. Green mine construction planning scheme of jinchuan no. 2 mining area. Mod Min, 2017(5): 252 (王晓帆. 金川二矿区绿色矿山建设规划方案. 现代矿业, 2017(5):252) [8] Wu A X, Wang H J. Theory and Technology of Metal Mine Cemented Paste Backfill. Beijing: Science Press, 2015 (吴爱祥, 王洪江. 金属矿膏体充填理论与技术. 科学出版社, 2015) [9] Jiang L Z, Yan B L, Liu C, et al. Revision introduction of GB/T1346 water consumption for cement standard consistency, setting time and stability test method. Cement, 2012(9): 40 (江丽珍, 颜碧兰, 刘晨, 等. GB/T1346《水泥标准稠度用水量、 凝结时间、安定性检验方法》修订内容介绍. 水泥, 2012(9):40) [10] Yin S H, Wu A X, Hu K, et al. The effect of solid components on the rheological and mechanical properties of cemented paste backfill. Miner Eng, 2012, 35: 61 [11] Shi X Y. Effect of water-cement ratio on setting time of cement net slurry. Sichuan Cement, 2018(7): 07 (施潇韵. 水灰比对水泥净浆凝结时间的影响. 四川水泥, 2018(7):07) [12] Zhang L, Wang H J, Wu A X, et al. Effect of sodium sulfide on setting property of filling paste in a lead-zinc mine. Met mine, 2016, 45(9): 44 (张磊, 王洪江, 吴爱祥, 等. 硫化钠对某铅锌矿充填膏体凝结性 能的影响. 金属矿山, 2016, 45(9):44) [13] Yin S H, Liu J M, Shao Y J, et al. Influence rule of early compressive strength and solidification mechanism of full tailings [14] paste with coarse aggregate. J Cent South Univ Sci Technol, 2020, 51(2): 478 (尹升华, 刘家明, 邵亚建, 等. 全尾砂–粗骨料膏体早期抗压强 度影响规律及固化机理. 中南大学学报: 自然科学版, 2020, 51(2):478) Guo S M. Study on cementing materials and technology of mine filling based on blast furnace water quenching slag. Gansu metall, 2007, 29(4): 01 (郭生茂. 基于高炉水淬渣的矿山胶结充填材料与工艺研究. 甘 肃冶金, 2007, 29(4):01) [15] Liu X H, Wu A X, Wang H J, et al. Influence mechanism and calculation model of CPB rheological parameters. Chin J Eng, 2017, 39(2): 190 (刘晓辉, 吴爱祥, 王洪江, 等. 膏体流变参数影响机制及计算模 型. 工程科学学报, 2017, 39(2):190) [16] Yang L H, Wang H J, Wu A X, Li H, et al. Effect of mixing time on hydration kinetics and mechanical property of cemented paste backfill. Constr Build Mater, 2020, 247: 118516 [17] Yan B H, Li C P, Wu A X, et al. Analysis of influencing factors of coarse particle migration in paste slurry pipeline. Chin J Nonferrous Met, 2018, 28(10): 201 (颜丙恒, 李翠平, 吴爱祥, 等. 膏体料浆管道输送中粗颗粒迁移 的影响因素分析. 中国有色金属学报, 2018, 28(10):201) [18] Boger D V. Rheology and the resource industries. Chem Eng Sci, 2009, 64(22): 4525 [19] Su J M, Ruan S Y, Wang Y L. MATLAB engineering mathematics. Beijing: Electronic Industry Press, 2005 (苏金明, 阮沈勇, 王永利. MATLAB 工程数学. 北京: 电子工业 出版社, 2005) [20] Lan W T, Wu A X, Wang Y M. Formulation optimization and formation mechanism of condensate expansion and filling composites. Acta Mater Compos Sin, 2019, 36: 2 (兰文涛, 吴爱祥, 王贻明. 凝水膨胀充填复合材料的配比优化 与形成机制. 复合材料学报, 2019, 36:2) [21] Zhang H T. The best value of multivariate functions. J Shanxi Datong Univ Sci Technol, 2017, 33(5): 1 (张海涛. 巧解多元函数的最值. 山西大同大学学报: 自然科学 版, 2017, 33(5):1) [22] 尹升华等: 不同粗骨料对膏体凝结性能的影响及配比优化 · 837 ·