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采动影响下断层稳定性的力学机理及其控制研究

Study on mechanics mechanism and control of fault stabilityunder mining-induced influence

  • 摘要: 断层受采动影响易发生活化,常引发塌方、冒顶、突水、矿震、冲击地压等事故。为了探明断层发生活化的条件,将断层带、上盘和下盘视为一个系统,采用Anderson断层模型和Mohr-Coulomb强度准则,经数理分析,研究了采动影响下断层的稳定性问题及系统参量对断层稳定性的影响。结果表明:断层处于自锁还是活化状态,取决于断层视摩擦因数k1与断层摩擦因数k之间的量值关系;当k1 

    Abstract: Faults are prone to be activated under the influence of mining, often causing accidents such as landslides, roof collapse, water inrush, mine earthquake, rock burst and others. In order to find out the conditions for the activation of the fault, the fault zone, the upper plate and the lower plate were regarded as a system. The stability of fault under the influence of mining and the influence of system parameters on the stability of fault were studied through theoretical analysis, and Anderson fault model and Mohr-Coulomb strength criterion were used. The results show that the fault is in self-locking or activation state, depending on the relationship between the apparent friction coefficient k1 and the fault friction factor k; the fault is in self-locking state when k1

     

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