分层胶结充填体力学特性及裂纹演化规律

Mechanical properties and crack evolution of interbedded cemented tailings backfill

  • 摘要: 在进行大尺寸采空区嗣后充填过程中,胶结充填体易出现分层等结构现象。为深入分析结构特征对胶结充填体力学特性及裂纹演化规律的影响,首先制作中间层高度比为0.2、0.4、0.6和0.8,灰砂比为1∶4、1∶6、1∶8和1∶10的分层胶结充填体试件,然后利用GAW–2000伺服试验系统开展单轴压缩试验,最后借助二维颗粒流软件(PFC–2D),分析胶结充填体内部裂纹分布规律。结果表明:(1)分层充填体单轴抗压强度与高度比呈指数函数关系、与灰砂比呈多项式函数关系;弹性模量与高度比及灰砂比均呈多项式函数关系;单轴抗压强度及弹性模量均随高度比的增加而减小、随灰砂比的增大而增大,且两者对灰砂比敏感度更高。(2)充填体内部裂纹演化曲线先缓慢上升,达到单轴抗压强度的80%左右时快速上升,且灰砂比越大、高度比越大,上升速度越快,拐点到来越早,充填体试件越易发生破坏,超过单轴抗压强度后曲线开始迅速下降。(3)分层充填体主要表现为剪切破坏、张拉破坏及共轭剪切破坏,且破坏主要集中于中间软弱层;高度比越大,试件内部裂纹越密集,灰砂比越大,裂纹越易向两端演化。

     

    Abstract: In the process of filling a large-scale goaf, due to the limitations in the capacity of the mixing tank, it is difficult to completely filling the goaf all once, but multiple fillings of a goaf can easily produce a layered structure in the cemented tailings backfill. This layered structure has a significant effect on the mechanical properties of the cemented tailings backfill. To analyze the influence of these structural characteristics on the mechanical properties and evolution of cracks in cemented tailings backfill, the layered cemented tailings backfill specimens with height ratios of 0.2, 0.4, 0.6 and 0.8, and cement-tailing ratios of 1∶4, 1∶6, 1∶8 and 1∶10 were made, and then the uniaxial compression test was carried out by using a GAW–2000 servo test system, and finally the crack distribution inside the cemented tailings backfill were analyzed by using 2D particle flow software(PFC-2D). The results show that: (1) the relationship between the uniaxial compressive strength and the height ratio of the layered backfill can be represented by an exponential function, and the relationship between the uniaxial compressive strength and the cement-tailing ratio can be represented by a polynomial function. The relationship between the elastic modulus and the height ratio and the cement-tailing ratio can be represented by a polynomial function. The uniaxial compressive strength and the elastic modulus are found to decrease with increase in the height ratio, and increase with increase in the cement-tailing ratio, with both being more sensitive to the cement-tailing ratio. (2) The evolution curve of cracks in the cemented tailings backfill increases gradually at first, and then rapidly increases to about 80% of the peak strength, whereby the larger is the cement-tailing ratio, the lager is the height ratio. Furthermore, the earlier the fast-rising inflection point occurs, the more easily is the backfill specimen damaged, and the curve begins to decline rapidly after exceeding the peak strength. (3) The layered backfill fails primarily by mainly shear failure, tensile failure and conjugate shear failure, and the failure is mainly concentrated in the middle weak layer. The larger is the height ratio, the denser are the cracks, the bigger is the cement-tailing ratio, and the more easily the cracks evolve to both ends.

     

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