Case studies of three-dimensional effects on the behaviour of test embankments

Qu, Guangfeng QuG.; Hinchberger, Sean D.; Lo, K. Y.

doi:10.1139/t09-060

Cited by 16 publications

(4 citation statements)

References 15 publications

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“…The calculation of the FOS first depends on the limit equilibrium method (LEM), which is based on statistics [6][7][8]. Then, the finite element method (FEM) is used to calculate the FOS to provide detailed stress and strain information [9][10][11][12][13][14][15]. However, both the LEM and FEM can only be used before failure, and cannot show the post-failure behavior of a sliding mass because LEM cannot calculate strain and displacement, and FEM has limitations when it comes to large-deformation analysis.…”

Section: Introductionmentioning

confidence: 99%

Forecasting Landslides via Three-Dimensional Discrete Element Modeling: Helong Landslide Case Study

Peng

Song

et al. 2019

Applied Sciences

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Forecasting the occurrence potential of landslides is important but challenging. We aimed to forecast the failure potential of the Helong landslide, which is temporarily stable but has clearly deformed in recent years. To achieve the goal, we used reconnaissance, remote sensing, drilling, laboratory tests, topographical analysis, and electrical resistivity tomography (ERT). The factor of safety (FOS) of the slope was first calculated using a limit equilibrium method. The results show the FOS of the slope was 1.856 under natural conditions, 1.506 under the earthquake conditions, 1.318 under light rainfall, 0.986 under heavy rainfall, 1.075 under light rainfall and earthquake, and 0.832 under simultaneous heavy rainfall and earthquake. When the FOS is less than 1.35, the slope is considered metastable according to the Technical Code for Building Slope Engineering (GB50330-2013) published by the Chinese Ministry of Housing and Urban-Rural Development. Based on the drilling data and digital elevation data, a three-dimensional discrete element method (DEM) model was used to simulate potential landslides. The simulation was used to examine catastrophic slope failure under heavy rainfall conditions within a range of friction coefficients and the corresponding affected areas were determined. Then, we analyzed a typical run-out process. The dynamic information of the run-out behavior, including velocity, run-out distance, and depth, were obtained, which is useful for decision support and future landslide hazard assessment.

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Section: Introductionmentioning

confidence: 99%

Forecasting Landslides via Three-Dimensional Discrete Element Modeling: Helong Landslide Case Study

Peng

Song

et al. 2019

Applied Sciences

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“…Yin, Zhang, Hicher, and Huang developed a rheological model, based on the framework of Perzyna's overstress theory and the modified Cam‐Clay model, that could satisfactorily describe the time‐dependent characteristics of normally consolidated or slightly overconsolidated clayey soils along various loading paths. Hinchberger et al constructed a constitutive equation with a scalable elliptical yield surface and evaluated two elastic‐viscoplastic (EVP) formulations for a case study of an embankment founded on Sackville soft clay. Li, Wang, Zhu, Xu, and Xie proposed a three‐dimensional rheological model and coded a user‐material subroutine for the model by using the ABAQUS platform, declaring that with an increase in the confining pressure, the elastic deformation, viscoelastic deformation, and viscoplastic deformation decreased slightly.…”

Section: Introductionmentioning

confidence: 99%

Study of the 1‐D consolidation behavior of two‐layered soft soils: Parametric studies using a rheological model with viscoplastic body

Zou

Xie

et al. 2018

Num Anal Meth Geomechanics

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Summary The governing equations for the coupled processes of consolidation and creep of two‐layered soft soils are established. The Nishihara rheological model is adopted to simulate the elasto‐viscoplastic characteristics of soft soils, disregarding the effects of the soil self‐gravity. A semi‐analytical theory combined with numerical and analytical methods is introduced to solve the governing equations of the one‐dimensional rheological model. The computational procedure and the approximate solutions for two‐layered soft soils subjected to surface loading are obtained for two drainage conditions. The solutions and the computational procedure are used to study the effects of the two layers and constitutive parameters on rheological consolidation behavior of soft soils. It can be concluded that two layers affect the rate of excess pore water pressure dissipation and settlement development. The parametric studies show that when the parameters of the upper layer remain constant, increases in the permeability and elastic modulus in the lower layer accelerate the dissipation of the excess pore water pressure, and meanwhile increases in the viscosity coefficient and viscoplastic limit slows down the dissipation of the excess water pressure.

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“…Some methods realized local applications of elongational deformation flow field in polymer processing with high efficiency but low consumption [12][13][14][15][16]. Qu J.P. et al invented a vane extruder based on elongational deformation, which is helpful for the orientation and dispersion of fibers in the composites [11,[11][12][13][14][15][16][17][18][19].…”

Section: Introductionmentioning

confidence: 99%

Preparation of Polypropylene/Sisal Fiber Composites and Study on the Fiber Orientation

Chen

Huang

Zou

et al. 2014

AMR

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The polypropylene/sisal fiber composites were prepared by twin screw extruder and vane extruder, respectively. The tensile test specimens perpendicular to the extrusion direction and parallel to the extrusion direction were prepared from the extruded composites, respectively. SEM observation showed that fiber orientation of sisal fiber in the composites was not obvious when the content of sisal fiber not more than 15wt%. When the content of sisal fiber was 15wt%, the ability to orientate of sisal fiber in the composite prepared by vane extruder was better than that of in the composite prepared by twin screw extruder, which the fiber orientation of sisal fiber was obvious along the extrusion direction in the composite. Tensile tests showed that the tensile properties of the composite parallel to the extrusion direction with 15wt% sisal fiber prepared by vane extruder were the best compared with other composites in this work. The results illustrated that the orientation of sisal fiber in the composites was beneficial to the improvement of the tensile properties of the composites.

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Case studies of three-dimensional effects on the behaviour of test embankments

Cited by 16 publications

References 15 publications

Forecasting Landslides via Three-Dimensional Discrete Element Modeling: Helong Landslide Case Study

Forecasting Landslides via Three-Dimensional Discrete Element Modeling: Helong Landslide Case Study

Study of the 1‐D consolidation behavior of two‐layered soft soils: Parametric studies using a rheological model with viscoplastic body

Preparation of Polypropylene/Sisal Fiber Composites and Study on the Fiber Orientation

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