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强降雨作用下岩土界面含粗粒富集区边坡的破坏机理

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论文题目

Failure mechanism of the slope containing coarse particle enrichment zones located at the soil–rock interface under the heavy rainfall

Yixiang Song1Tengyu Lv1Hong Liu2Da Huang3Dongming Gu4

1School of Civil and Transportation Engineering, Hebei University of Technology, Tianjin 300401, China

2Offshore Oil Engineering Co. Ltd., Tianjin 300456, China

3School of Geological Engineering and Geomatics, Chang’an University, Xi’an 710064, China

4Engineering Faculty, China University of Geosciences(Wuhan), Wuhan 430074, China



 

研究内容

Abstract: Internal erosion caused by seepage at the soil–rock interface with local coarse particle enrichment zones (CPEZ) is a significant factor contributing to geological disasters during rainfall events. The mechanism of landslides induced by internal erosion at the soil–rock interface within CPEZ with high permeability remains unclear. This study incorporated a degradation model of bonding strength and a viscous force model into the discrete-element software MatDEM to analyze the evolution of seepage erosion at the soil–rock interface. The numerical simulations investigated the impact of the number and spacing distance of CPEZ on erosion characteristics within the interface seepage. Subsequently, the study analyzed the infiltration process and stability of the Gendakan slope during heavy rainfall to understand the failure mechanism of rainfall-induced landslides with local CPEZ at the soil–rock interface. The findings suggest that the seepage erosion process can be divided into three stages: initial, development transition, and destruction stages. Moreover, the overall permeability of the numerical model strengthens with the increase in CPEZ scale and permeability difference. A higher number of CPEZ distributed throughout the sample increases susceptibility to seepage erosion, while wider spacing between CPEZ reduces their impact on overall permeability. The numerical analysis of the Gendakan landslide highlights the importance of instability at the foot of the slope due to internal erosion of CPEZ in triggering traction landslides across the accumulation mass. This paper delves into the failure mechanism of seepage erosion at the soil–rock interface, offering theoretical support for the prevention and control of landslide geological disasters.

Keywords: Soil–rock interface, Internal erosionCoarse particle enrichment zones Failure mechanismGendakan landslide



Fig. 1 Schematic diagram of permeation test apparatus (Huang et al. 2021)

Fig. 3 Numerical model used in the seepage erosion test (model A-20)

Fig. 6 Engineering geological section of the landslide

Fig. 7 Numerical model for simulation of the landslide deposit

Fig. 9 Migration of particles under different hydraulic gradients: a i = 10, b i = 30, c i = 50, d i = 70, e i = 80 and f i = 90 (model A20-100)

Fig. 10 Evolution of pore water pressure within the landslide during the rainfall

Fig. 13 The displacement field diagram of the landslide deposit (5.5 h and 6 h)


 

了解详情


 

SONG Y et al., Failure mechanism of the slope containingcoarse particle enrichment zones located at the soil–rock interface under the heavy rainfall[J/OL].Environmental Earth Sciences, 2024, 83(10): 302.DOI:10.1007/s12665-024-11590-6.




来源:矩阵离散元MatDEM
ACTUG岩土UM离散元InVEST
著作权归作者所有,欢迎分享,未经许可,不得转载
首次发布时间:2024-06-16
最近编辑:6月前
MatDEM
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