基于离心模型试验的降雨诱发滑坡宏细观机理研究
Centrifugal model tests on slope failure induced by rainfall
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摘要: 利用同济大学土工离心机,结合自主设计的可控强度降雨模拟器,进行降雨诱发砂土质边坡滑坡的离心机模型试验,研究降雨条件下滑坡发生的宏细观机理。试验过程中,采用高速动态数据采集仪和孔隙水压力传感器进行孔压量测;利用高清数码成像设备采集图像,并结合Geodip软件对滑坡形成过程中土体细观结构变化进行分析。研究结果表明:雨水在坡体内部不同位置的流动和累积,是土体发生滑坡的主要原因。砂土质边坡发生滑坡的宏细观机理为坡体中细颗粒随雨水渗透向坡脚迁移,使坡体内部雨水大量聚集导致孔压上升土体强度降低,当下滑力大于抗剪强度时,上部土体推动下部土体发生整体滑动,形成滑坡。Abstract: By using the geotechnical centrifuge of Tongji University and combining with an artificial rainfall simulator which is designed to control the rainfall intensities, the centrifugal model tests are carried out to study the macro-mesoscopic formation mechanism of cohesionless soil slope failure induced by rainfall. During the test processes of slope failure, the pore pressure is measured by the high-speed dynamic data acquisition instrument and the precise pore water pressure sensor. Using the HD digital imaging equipment and the mesoscopic structure analysis software Geodip, the variation laws of soil microstructure during the formation of landslide are analyzed. The results show that the permeation and cumulation of rainwater in the slope body is regarded as the main cause of slope failure. The formation mechanism of landslide is the motion of the fine particles with migratation of pore water in the slope. The gathering of rain at the inner slope body causes the increase of pore pressure and the reduction of soil strength, and then the whole sliding occurs when the sliding force exceeds the shear strength of soil.