ISSN 1000-3665 CN 11-2202/P

    岩体结构对岩质滑坡运动过程和堆积特征的影响研究

    A Study of the influence of rock mass structure on the propagation processes and deposit characteristics of rockslides

    • 摘要: 我国西南高山峡谷地区,常发生高位岩质斜坡失稳,形成碎屑流,造成巨大人员伤亡与经济财产损失。目前存在着许多关于岩质滑坡的研究理论和物理模型,但这些理论与模型都忽略了岩体结构这一属性,然而对岩质滑坡而言,岩体的结构特征不仅控制着斜坡变形失稳模式,同样影响失稳后滑体碎屑化运动过程,甚至最终的危害范围。因此,文章使用离散元数值模拟方法,通过模拟不同结构面强度、结构面密度、结构面方向和岩块强度下岩质滑坡碎屑化运动过程,研究了不同源区岩体结构对岩质滑坡破碎特征、运动形式和运动距离的影响规律及影响机制。研究结果如下:(1)质心运动距离随结构面强度增大而增大,结构面抗拉强度提升10倍,质心运动距离增加3%;(2)结构面密度的增加使得块体破碎率随之增加,但运动距离和分布面积都呈下降趋势;(3)水平向结构面岩体的前缘运动距离和质心运动距离与其他方向结构面工况相比均降低10%左右,分布面积则缩减接近30%,破碎率最大;(4)随着岩块强度增加,破碎率降低,分布面积最终缩减40%,完整块体工况运动距离最终增大15%左右。结果有助于进一步理解岩质滑坡动力学过程,指导山区防灾减灾工作。

       

      Abstract: The failure of high-positioned rock slope often occurs in alpine and gorge regions of southwest China, resulting in huge casualties and economic and property losses. At present, there are many research theories and physical models for rock landslides, but these theories and models ignore the structural characteristics of rock mass. However, for rockslides, the structural characteristics of rock mass not only control the failure mode of slope deformation, but also affect the fragmentation process of landslide after failure, and even the final hazard range. In this study the discrete element numerical simulation method is used to simulate the fragmentation process of rockslides under different strength of joint, densities of joint, directions of joint and strength of rock mass, and to examine the influence law and mechanism of joint and rock mass characteristics on rockslides fragment characteristics, propagation type and runout. The results show that (1) the horizontal runout of the center of mass increases with the increasing strength of the structural plane, the tensile strength of the structural plane increases by 10 times, and the horizontal runout of the center of mass increases by 3%. (2) The increase of the joint density increases the relative breakage ratio of blocks, but the runout and accumulation area show a downward trend. (3) Compared with other conditions, the runout of mass in the thin bedded rock sheared by the horizontal joint is reduced by about 10%, and the accumulation area is reduced by nearly 30%. (4) The block strength increases, the relative breakage ratio of blocks decreases, and the accumulation area is eventually reduced by 40%. When the block is intact, the runout eventually increases by about 15%. This research is helpful to further understand the fragmentation process of rock landslides and guide disaster prevention and mitigation in mountainous areas.

       

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