以中关铁矿全尾砂为充填骨料、水泥为胶凝材料制作胶结充填体,采用单因素四水平试验设计,分析了全尾砂的物理化学性质,探讨了全尾砂胶结充填体强度与灰砂比、料浆质量浓度和养护龄期之间的定量关系,并对其敏感程度进行了研究。研究结果表明:中关铁矿全尾砂中值粒径仅为14.2μm,碱度系数为2.31,活性系数为2.12,属于碱性超细全尾砂,级配良好、活性较高;全尾砂胶结充填体的强度随灰砂比的增加和料浆质量浓度的增加呈指数函数增长,随养护龄期的增加呈线性增长,拟合相关系数平均值分别为0.97、0.96和0.92;充填体强度对养护龄期的敏感程度最高,灰砂比次之,料浆质量浓度最小。
Cemented-tailing backfills were produced by taking unclassified tailings of Zhongguan Iron Mine as filling aggregate, and ordinary Portland cement as cementing agent. Physicochemical properties of unclassified tailings were analyzed, quantitative relationships between backfill strength and cement-tailing ratio, slurry concentration, and curing age were discussed by using single-factor four-level experiment, and sensitivity of backfill strength to these factors were also studied. The results show that, unclassified tailings of test, whose median diameter, alkalinity coefficient and activity coefficient are 14. 2 μm, 2. 31 and 2. 12 respectively, belongs to alkaline super-fine tailings with high activity. Strength of full tailings cemented backfill follows exponential function with cemented-tailing ratio and slurry concentration, but linear function with curing age, and the the corresponding correlation coefficients are 0. 97, 0. 96 and 0. 92 respectively. Sensitivity of backfill strength to curing age is the maximum, followed by cement-tailing ratio, and slurry concentration is the minimum.
参考文献
| [1] | 蔡嗣经;黄刚;吴迪;张亚东.尾砂充填料浆流变性能模型与试验研究[J].东北大学学报(自然科学版),2015(6):882-886. |
| [2] | Tikov Belem;Mostafa Benzaazoua.Design and Application of Underground Mine Paste Backfill Technology[J].Geotechnical and geological engineering,20082(2):147-174. |
| [3] | 董璐;高谦;南世卿;杜聚强.超细全尾砂新型胶结充填料水化机理与性能[J].中南大学学报(自然科学版),2013(4):1571-1577. |
| [4] | Doherty, James P..A numerical study into factors affecting stress and pore pressure in free draining mine stopes[J].Computers and geotechnics,2015Jan.(Jan.):331-341. |
| [5] | Zhang Tianjun;Ma Mina;Wang Hongsheng;Xu Hongjie.A nonlinear rheological model of backfill material for retaining roadways and the analysis of its stability[J].矿业科学技术(英文版),2011(04):543-546. |
| [6] | 王新民;刘吉祥;陈秋松;肖崇春;万孝衡.超细全尾砂絮凝沉降参数优化模型[J].科技导报,2014(17):23-28. |
| [7] | Li Li.Generalized Solution for Mining Backfill Design[J].International journal of geomechanics,20143(3):4014006.1-4014006.11. |
| [8] | 孙德民;任建平;焦华喆;惠林.某矿全尾砂胶结充填物料性能研究[J].金属矿山,2012(3):6-9,14. |
| [9] | 杨志强;高谦;王永前;陈得信;把多恒.金川全尾砂-棒磨砂混合充填料胶砂强度与料浆流变特性研究[J].岩石力学与工程学报,2014(z2):3985-3991. |
| [10] | 邹正勤;高谦;南世卿.充填采矿用全尾砂胶结材料流变特性研究[J].金属矿山,2012(12):132-135. |
| [11] | 祝丽萍;倪文;张旭芳;黄晓燕.赤泥-矿渣-水泥基全尾砂胶结充填料的性能与微观结构[J].北京科技大学学报,2010(7):838-842. |
| [12] | 韩斌;吴爱样;王贻明;王洪江;王少勇;江怀春.低强度粗骨料超细全尾砂自流胶结充填配合比优化及应用[J].中南大学学报(自然科学版),2012(6):2357-2362. |
| [13] | 王洪江;李辉;吴爱祥;刘斯忠;王恒.基于全尾砂级配的膏体新定义[J].中南大学学报(自然科学版),2014(2):557-562. |
| [14] | 焦华喆;王洪江;吴爱祥;吉学文;严庆文;李祥.全尾砂絮凝沉降规律及其机理[J].北京科技大学学报,2010(6):702-707. |
| [15] | Yilmaz, Erol;Belem, Tikou;Benzaazoua, Mostafa.Specimen size effect on strength behavior of cemented paste backfills subjected to different placement conditions[J].Engineering Geology,2015:52-62. |
| [16] | 张钦礼;李谢平;杨伟.基于BP网络的某矿山充填料浆配比优化[J].中南大学学报(自然科学版),2013(7):2867-2874. |
| [17] | 徐文彬;杜建华;宋卫东;陈海燕.超细全尾砂材料胶凝成岩机理试验[J].岩土力学,2013(8):2295-2302. |
| [18] | 李瑞龙;何廷树;何娟.全尾砂胶结充填材料配合比及性能研究[J].硅酸盐通报,2015(2):314-319. |
| [19] | 付建新;杜翠凤;宋卫东.全尾砂胶结充填体的强度敏感性及破坏机制[J].北京科技大学学报,2014(9):1149-1157. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%