Author(s)

Shan Dong, Wenkai Feng, Wenkai Feng, Yibo Yin, Rui Hu, Hongchuan Dai

State Key Laboratory of Geohazard Prevention and Geoenvironment Protection, Chengdu University of Technology, Chengdu, China.

Rainfall is one of the most important factors contributing to landslides, and gentle bedding incline, high-rainfall induced landslides are common throughout the world. Field observations and theoretical analyses have been used to assess slope instability caused by permeability variation. In this study, the influence of rainfall infiltration on gentle bedding incline slope behaviour was investigated using a centrifuge physical simulation test. The magnitude, pattern and development of pore water and earth pressure at the interface; the shear failure surface features; and the corresponding deformation and failure processes were considered. A model with interbedded sand and mud was created, and a centrifuge was used to simulate both natural and rainfall conditions. The weak intercalation was composed of single-material silty clay, and the landslide mass was composed of red-bed sandstone. A combination of photography, pore water pressure measurements and earth pressure measurements were used to examine the relationship between the pore water pressure, earth pressure and failure modes. When the slope experiences overall instability, the curves of the earth pressure and pore water pressure dramatically decrease. The results reveal that the failure shear surface largely depends on the differential creep caused by the properties of the rock mass and the rainfall infiltration.

Rainfall-Induced Landslide, Centrifuge physical Simulation Test, Earth Pressure, Pore Water Pressure, Deformation and Failure Processes

Dong, S. , Feng, W. , Feng, W. , Yin, Y. , Hu, R. and Dai, H. (2019) Examination of Rainfall-Induced Landslide Failure Mechanisms via a Centrifuge Physical Simulation Test. Open Journal of Geology, 9, 1004-1021. doi: 10.4236/ojg.2019.913102.