Tangjiashan landslide is a typical high-speed landslide hosted on consequent bedding rock.The landslide was induced by Wenchuan earthquake at a medium-steep hill slope.The occurrence of Tangjiashan landslide was basic...Tangjiashan landslide is a typical high-speed landslide hosted on consequent bedding rock.The landslide was induced by Wenchuan earthquake at a medium-steep hill slope.The occurrence of Tangjiashan landslide was basically controlled by the tectonic structure,topography,stratum lithology,slope structure,seismic waves,and strike of river.Among various factors,the seismic loading with great intensity and long duration was dominant.The landslide initiation exhibited the local amplification effect of seismic waves at the rear of the slope,the dislocation effect on the fault,and the shear failure differentiating effect on the regions between the soft and the hard layers.Based on field investigations and with the employment of the distinct element numerical simulation program UDEC(universal distinct element code),the whole kinetic sliding process of Tangjiashan landslide was represented and the formation mechanism of the consequent rock landslide under seismic loading was studied.The results are helpful for understanding seismic dynamic responses of consequent bedding rock slopes,where the slope stability could be governed by earthquakes.展开更多
This study focuses on the deformation characteristics of Kadui-2 Landslide by the influence of reservoir filling-drawdown and precipitation.A three-year monitoring project was implemented in order to observe the short...This study focuses on the deformation characteristics of Kadui-2 Landslide by the influence of reservoir filling-drawdown and precipitation.A three-year monitoring project was implemented in order to observe the short/long-term deformation.The slide mass experienced consistent deformation with a maximum cumulative displacement of 331.34 cm.Based on the recorded data of reservoir water level and precipitation during this period,a two-dimensional(2-D)finite element model using Geostudio software was set up for deformation simulation under different conditions to understand the real influence of these triggering factors on landslide.The numerical simulation results are in consistent with monitoring field data.Both numerical simulation and field monitoring results exhibit that the maximum deformation occurred at the foreside of slumping mass.The slip surface shows significant creep characteristics decreasing as long-term shear strength reducing gradually.Reservoir water level fluctuation is the primary triggering factor to reactivate the landslide mass and has a negative correlation with deformation rate.Displacement rate increases with the reservoir drawdown and decreases with impoundment rise.Compared with reservoir filling-drawdown operation,rainfall has no significant effect on the slide motion of landslide due to limited penetration from the ground surface.展开更多
基金Supported by the National Natural Science Foundation of China (40772175,40972175)the Scientific Research Fund of Southwest Jiaotong University(2008-A01)+1 种基金the Doctoral Student Innovation Fund of Southwest Jiaotong Universitythe National Natural Science Foundation of China-Yunan Joint Fund (U1033601)
文摘Tangjiashan landslide is a typical high-speed landslide hosted on consequent bedding rock.The landslide was induced by Wenchuan earthquake at a medium-steep hill slope.The occurrence of Tangjiashan landslide was basically controlled by the tectonic structure,topography,stratum lithology,slope structure,seismic waves,and strike of river.Among various factors,the seismic loading with great intensity and long duration was dominant.The landslide initiation exhibited the local amplification effect of seismic waves at the rear of the slope,the dislocation effect on the fault,and the shear failure differentiating effect on the regions between the soft and the hard layers.Based on field investigations and with the employment of the distinct element numerical simulation program UDEC(universal distinct element code),the whole kinetic sliding process of Tangjiashan landslide was represented and the formation mechanism of the consequent rock landslide under seismic loading was studied.The results are helpful for understanding seismic dynamic responses of consequent bedding rock slopes,where the slope stability could be governed by earthquakes.
基金supported by to the National Key Research and Development Program of China(No.2018YFC1505401)。
文摘This study focuses on the deformation characteristics of Kadui-2 Landslide by the influence of reservoir filling-drawdown and precipitation.A three-year monitoring project was implemented in order to observe the short/long-term deformation.The slide mass experienced consistent deformation with a maximum cumulative displacement of 331.34 cm.Based on the recorded data of reservoir water level and precipitation during this period,a two-dimensional(2-D)finite element model using Geostudio software was set up for deformation simulation under different conditions to understand the real influence of these triggering factors on landslide.The numerical simulation results are in consistent with monitoring field data.Both numerical simulation and field monitoring results exhibit that the maximum deformation occurred at the foreside of slumping mass.The slip surface shows significant creep characteristics decreasing as long-term shear strength reducing gradually.Reservoir water level fluctuation is the primary triggering factor to reactivate the landslide mass and has a negative correlation with deformation rate.Displacement rate increases with the reservoir drawdown and decreases with impoundment rise.Compared with reservoir filling-drawdown operation,rainfall has no significant effect on the slide motion of landslide due to limited penetration from the ground surface.