断层-围岩系统的形成过程及快速回跳数值模拟

Numerical simulation of formation process and snap-back for a fault band and elastic rock system

  • 摘要: 采用FLAC模拟了断层-围岩系统的形成过程及位移的分布规律.计算中采用了莫尔-库仑与拉破坏复合的破坏准则,峰后岩石本构关系为线性应变软化.两条断层带(或剪切带)汇交时系统形成,之后其承载能力下降.在断层带左侧,由于在系统承载能力降低的过程中,弹性应变的快速恢复,出现了快速回跳现象(系统失稳).在断层带之外,位移分布是均匀的.在断层带位置,存在较大的位移梯度.系统承载能力越低,位移梯度越大.远离加载端的区域先回跳,然后回跳区域逐渐扩大,向加载端传播,直到整个系统都回跳.上述过程持续的时间步数较少,说明了系统失稳的突发性.系统整体回跳发生于应变软化阶段.

     

    Abstract: The formation process of the system composed of fault band and elastic rock block and the shear displacement distribution across a fault band were modeled numerically by FLAC. The adopted failure criterion was a composite Mohr-Coulomb criterion with tension cut-off and the post-peak constitutive relation of rock was linear strain-softening. Once two shear bands combine to form a fault band, the system is formed, subsequently leading to the decrease in load-carrying capacity of the system. On one side of the fault band, snap-back occurs due to the sharp recovery of elastic strain in strain-softening process, indicating the unstable failure. Nearly uniform displacement distribution is observed outside the fault band. A higher displacement gradient exists within the band and increases with the decrease in load-carrying capacity of the system. Snap-back of the zone far away from the loading end is the earliest. Then, the size of the snap-back zone propagating towards the loading end increases until snap-back of the entire system takes place. The process only needs a few time steps, reflecting the abrupt occurrence of instability of the system. Snap-back of the entire system occurs in the strain-softening stage of a stress-strain curve.

     

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