Numerical Analysis of Instability Mechanism of a High Slope under Excavation Unloading and Rainfall

High slope simulation analysis is an essential means of slope engineering design, construction, and operation management. It is necessary to master slope dynamics, ensure slope safety, analyze slope instability mechanisms, and carry out slope stability early warning and prediction. This paper, aiming at the landslide phenomenon of the high slope on the left bank of a reservoir project, considering the influence of stratum lithology, fault, excavation unloading, rainfall, and water storage, establishes a refined finite element model that reflects the internal structure of the slope. The fluid-solid coupling numerical simulation analysis of the high slope is carried out. Based on this, the failure mechanism of the slope under excavation unloading and heavy rainfall is explained. The application of an engineering example shows that under the combined action of excavation unloading and rainfall infiltration, the in-plane saturation of the structure formed at fault at the trailing edge of the excavation slope surface increases, the pore water pressure increases, and the shear strain concentration area appears at the internal structural surface of the slope. The shear strain concentration area extends along the structural surface to the front and rear edges of the slope, resulting in landslide damage.

[1]  K. Ueda,et al.  Numerical modeling of seepage and deformation of unsaturated slope subjected to post-earthquake rainfall , 2022, Computers and Geotechnics.

[2]  Yu Zhang,et al.  Coupling Action of rainfall and vehicle loads impact on the stability of loess slopes based on the iso-water content layer , 2022, Earthquake Research Advances.

[3]  Chuangbing Zhou,et al.  Study on the mechanism of displacement mutation for jointed rock slopes during blasting excavation , 2022, International Journal of Rock Mechanics and Mining Sciences.

[4]  Jinxin Zhang,et al.  Rainwater transformation to runoff and soil loss at the surface and belowground on soil-mantled karst slopes under rainfall simulation experiments , 2022, CATENA.

[5]  Danqing Song,et al.  An Image Recognition Method for the Deformation Area of Open-pit Rock Slopes under Variable Rainfall , 2021, Measurement.

[6]  Q. Gao,et al.  Effects of desiccation cracks and vegetation on the shallow stability of a red clay cut slope under rainfall infiltration , 2021, Computers and Geotechnics.

[7]  Yu Huang,et al.  Stability Analysis of Rainfall-Triggered Toe-Cut Slopes and Effectiveness Evaluation of Pile-Anchor Structures , 2021, Journal of Earth Science.

[8]  Tugen Feng,et al.  Evaluation and analysis of the causes of a landslide and treatment measures during the excavation of a tunnel through a soil-rock interface , 2021, Engineering Failure Analysis.

[9]  S. Cuomo,et al.  Modelling the spatio-temporal evolution of a rainfall-induced retrogressive landslide in an unsaturated slope , 2021, Engineering Geology.

[10]  Chun’an Tang,et al.  Study of the slope deformation characteristics and landslide mechanisms under alternating excavation and rainfall disturbance , 2021, Bulletin of Engineering Geology and the Environment.

[11]  R. Greco,et al.  Recurrent rainfall-induced landslides on the slopes with pyroclastic cover of Partenio Mountains (Campania, Italy): Comparison of 1999 and 2019 events , 2021, Engineering Geology.

[12]  Limin Zhang,et al.  Recent Advances in Stability and Failure Mechanisms of Landslide Dams , 2021, Frontiers in Earth Science.

[13]  Chuangbing Zhou,et al.  Experimental study of the failure mode and mechanism of loess fill slopes induced by rainfall , 2020 .

[14]  Guang Wu,et al.  Analysis of rock slope stability under rainfall conditions considering the water-induced weakening of rock , 2020 .

[15]  Yong Tan,et al.  Experimental study on failure of temporary earthen slope triggered by intense rainfall , 2020 .

[16]  K. Zhang,et al.  Field investigation and numerical study of a siltstone slope instability induced by excavation and rainfall , 2020, Landslides.

[17]  W. Xie,et al.  Experimental investigation and failure mechanism analysis for dacite under true triaxial unloading conditions , 2020 .

[18]  Ying Wang,et al.  Susceptibility of reservoir-induced landslides and strategies for increasing the slope stability in the Three Gorges Reservoir Area: Zigui Basin as an example , 2019, Engineering Geology.

[19]  Qiang Xu,et al.  Model test study on the hydrological mechanisms and early warning thresholds for loess fill slope failure induced by rainfall , 2019, Engineering Geology.

[20]  Jian-bing Peng,et al.  Landslides triggered by excavation in the loess plateau of China: A case study of Middle Pleistocene loess slopes , 2019, Journal of Asian Earth Sciences.

[21]  Tantan Zhu,et al.  Experimental investigation of the shear mechanical behavior of sandstone under unloading normal stress , 2019, International Journal of Rock Mechanics and Mining Sciences.

[22]  M. Heap,et al.  Influence of unloading and loading stress cycles on the creep behavior of Darley Dale Sandstone , 2018, International Journal of Rock Mechanics and Mining Sciences.

[23]  O. Yadav,et al.  A finite element approach for analysis and computational modelling of coupled reaction diffusion models , 2018, Numerical Methods for Partial Differential Equations.

[24]  O. Yadav,et al.  A finite element approach to capture Turing patterns of autocatalytic Brusselator model , 2018, Journal of Mathematical Chemistry.

[25]  Jinsong Huang,et al.  Stability analysis of unsaturated soil slopes under random rainfall patterns , 2018, Engineering Geology.

[26]  Bandy X. Lee,et al.  Transforming Our World: Implementing the 2030 Agenda Through Sustainable Development Goal Indicators , 2016, Journal of public health policy.

[27]  A. Alarcon-Guzman,et al.  Effects of loading–unloading and wetting–drying cycles on geomechanical behaviors of mudrocks in the Colombian Andes , 2014 .