大红山铜矿胶结充填矿柱具有“高、窄、长”的特点,并且矿柱充填体须服务相邻2个矿房的回采,暴露周期长,对充填体的稳定性、整体性和强度设计及充填实施提出了很高的要求。以B88-92-3盘区为例,通过分析确定,经验类比法和模型法很难用于胶结充填体强度设计。应用FLAC3D软件建立该盘区数值模型,通过弹性方案计算确定胶结充填体发生剪切破坏的参数,在此基础上利用弹塑性方案确定胶结充填体保持稳定的参数。工程实践表明,充填体在内聚力0.8 MPa、抗拉强度0.6 MPa、内摩擦角31°和抗压强度2.78 MPa条件下保持稳定。
Cemented filling pillars of Dahongshan Copper Mine are “high,narrow and long”,and must be respon-sible for the stopping of two adjacentore chambers .Its long exposure period requires much about the stability ,integrity and strength design of the cemented fill pillar and the filling process .Take B88-92-3 panel for example , analysis holds that the experience analogy method and model method are clumsy in the strength design of cemented filling body.A numerical model of the panel is established by FLAC 3D software,the parameters of cemented filling body that cause shear failure are determined by calculation of elastic solution .The parameters of the cemented filling body that maintain stability are determined by elastic-plastic solution .The engineering practice showes that the cemented filling body remains stable when the value of cohesion is 0.8 MPa,tensile strength is 0.6 MPa,internal friction angle is 31° and compressive strength is 2.78 MPa.
参考文献
| [1] | 郭利杰,杨小聪.深部采场胶结充填体力学稳定性研究[J].矿冶,2008(03):10-13. |
| [2] | 曾照凯,张义平,王永明.高阶段采场充填体强度及稳定性研究[J].金属矿山,2010(01):31-34. |
| [3] | Annor A .A study of characteristics and behavior of composite back-fill material[D].Montreal:McGill University,1990. |
| [4] | 蔡嗣经.胶结充填材料的强度特性与强度设计(Ⅰ)--胶结充填体的强度设计[J].江西冶金学院学报,1985(03):39-46. |
| [5] | 卢平 .胶结充填体强度的理论和实践[J].黄金,1992,13(03):14-18. |
| [6] | 杨耀亮,邓代强,惠林,李爱兵,王发芝.深部高大采场全尾砂胶结充填理论分析[J].矿业研究与开发,2007(04):3-4,20. |
| [7] | Terzaghi K.Theoretical Soil Mechanics[M].New York:John Wiley and Sons,Inc,1943:10-12. |
| [8] | 戴兴国;古德生;吴爱祥 .散体矿岩静压分析与计算[J].中南工业大学学报,1995,26(05):586-587. |
| [9] | 杨建桥 .某矿自立胶结充填体的稳定性研究[D].昆明:昆明理工大学,2012. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%