Experimental study on the deformation mechanism of upper-hard and lower-soft gently dipping rock on high slopes under the mining effect
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摘要: 我国西南岩溶山区地质环境复杂,地下开采活动频繁,大型崩滑灾害频发。为了了解上硬下软缓倾岩质边坡下覆矿层开采时坡体的沉降与地裂缝发育规律,以贵州普洒崩塌为例,通过相似模型试验,研究采动作用下,坡体的地表沉降、内部位移、层间压力变化规律、以及采动诱发的地裂缝发育情况。研究表明:在地下开采情况下,坡体地表沉降和内部位移随开采宽度增加呈线性增大;当开采宽度约为采高的16倍时,地表沉降突增,并伴随裂缝出现;测点越靠近地裂缝,沉降变化率越大,地裂缝发生位置与地表沉降变化率最大的测点大致出现在同一区域;掘进工作面推进时,采空区上方顶板岩层出现卸荷区域,压应力减小,而采动工作面煤层上方岩体出现层间挤压区域,压应力增加;采空区上方大于20倍采高范围以外,岩体层间压力受地下开采活动的扰动影响微弱。本研究为西南岩溶山区在地下采动作用下,对山体崩滑的早期识别与破坏机制分析具有一定的参考意义。Abstract: Complex geological environments characterize karst mountainous areas in southwest China with frequent underground mining activities and large-scale landslide hazards. The purpose of this work was to understand the law of slope subsidence and ground fissure development during mining activities under the upper-hard and lower-soft gently dipping rock slopes. Taking the Pusa collapse in Guizhou Provinceas an example, using similar-model experiments, we studied the surface settlement, internal displacement, interlayer pressure variation rule and features of mining ground fissure development of the slope body under mining activities. The results show that under the action of underground mining, the surface settlement and internal displacement of the slope body increase linearly with the growth of mining length. When the mining length is about 16 times of the mining height, the surface settlement of the test model increases sharply with cracks appearing. The closer the measurement point to the ground fissure, the greater the settlement change rate. The location of ground fissures and the maximum change rate of surface settlement appear roughly in the same area. When the driving face is advancing, the unloading area appears in the roof rock above the goaf where the compressive stress decreases, while the rock mass above the mining face has the interlayer compression area where compressive stress increases. Outside the mining height range of about 20 times above the goaf, the interlayer pressure in the test model is less affected by the disturbance of underground mining activities. The research in this paper has a certain reference significance for the early identification and failure mechanism analysis of landslides under underground mining activities in karst mountainous areas of southwest China.
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Key words:
- karst mountainous area /
- rock slope /
- mining activities /
- model test /
- ground fissure /
- interlayer pressure
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