Active static and seismic earth pressure for c–φ soils

Iskander, Magued; Chen, Zhibo; Omidvar, Mehdi; Guzmán, Ivan L.; Elsherif, Omar

doi:10.1016/j.sandf.2013.08.003

Cited by 48 publications

(10 citation statements)

References 23 publications

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“…This e ect is greater for larger values Lin et al [38] Iskander et al [37] Peng [41] Peng and Chen [21] This study 10 of c . When the plastic critical depth is considered in the solution, p a is always positive.…”

Section: Resultsmentioning

confidence: 68%

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Axisymmetric active lateral earth pressure for c- soils using the stress characteristics method

Keshavarz

Ebrahimi

2017

Scientia Iranica

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Abstract. The slip line or Stress Characteristics Method (SCM) is used to analyze the active lateral earth pressure in the axisymmetric case. In this paper, in addition to the retaining walls in the axisymmetric and plane strain conditions that were studied in the past, a new model of the retaining wall in the axial symmetry is considered, which can be widely used in the design of grain silos, buildings, and road constructions. The e ects of various parameters, including cohesion and friction angle of the soil, wall and back ll slopes, soil-wall interface adhesion, and friction angle, on the lateral earth pressure have been evaluated for all cases of the retaining walls. Based on the proposed theory, a computer code has been developed for the plane strain and axisymmetric cases. Also, nite element modelling is used to verify the results of the SCM. Comparison of the results indicates the accuracy of the proposed method. Furthermore, the e ect of the plastic critical or tension crack depth has been evaluated and it is indicated that neglecting the plastic critical depth is not conservative.

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Section: Resultsmentioning

confidence: 68%

“…of the active lateral earth pressure is zero from the ground surface to the plastic critical depth [22,[37][38][39][40][41].…”

Section: Resultsmentioning

confidence: 99%

Axisymmetric active lateral earth pressure for c- soils using the stress characteristics method

Keshavarz

Ebrahimi

2017

Scientia Iranica

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“…In the present paper, the analytical approach originated by Michalowski and Drescher [23] and extended by Gao et al [26] is further exploited to derive the stability charts for inhomogeneous cut slopes and natural slopes (as shown in Figure 1) under both static and pseudostatic seismic loading conditions [27][28][29]. e stability charts are plotted for a range of parameters wider than those presented by Li et al [18,22].…”

Section: Introductionmentioning

confidence: 99%

Static and Seismic Stability Charts for Three‐Dimensional Cut Slopes and Natural Slopes under Short‐Term Undrained Conditions

Zhou

Zhang

2019

Advances in Civil Engineering

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In the strict framework of limit analysis, an analytical approach is derived to obtain the upper bound solutions for threedimensional inhomogeneous slopes in clays under undrained conditions. Undrained strength profiles increasing linearly with depth below the crest of the slope and below the outline surface of the slope are assumed representative of cut slopes and natural slopes, respectively. Stability charts are produced for the cut slopes and the natural slopes under both static and pseudostatic seismic loading conditions. e presented charts are convenient to assess the preliminary and short-term stability for 3D slopes in practical applications, such as rapid excavation or buildup of embankments and slopes subjected to earthquakes. Compared with the available results from the finite element limit analysis method, a better estimate of the slope safety is obtained from the analytical approach.

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“…Seeking a more accurate estimation on it is of great significance for safe and economical construction of retaining walls. Until now, many attempts have been made, considering different circumstances, such as seismic actions (e.g., Iskander et al 2013) and seepage effects (Barros and Santos 2012), using different methods, such as limit equilibrium (Li and Liu 2010), numerical approaches (Benmeddour et al 2012) and limit analysis (Yang 2007). The available work was mainly carried out assuming the soils behind retaining walls to be dry or saturated.…”

Section: Introductionmentioning

confidence: 99%

Active earth pressure for soils with tension cracks under steady unsaturated flow conditions

Yang

2018

Can. Geotech. J.

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The calculation of active earth pressure has commonly been performed under dry or saturated conditions. However, in practice soils are usually unsaturated. With the aim of estimating active earth pressure under steady unsaturated flow conditions, this paper describes a new method within the framework of the kinematic approach of limit analysis. A closed-form formula is adopted to estimate the suction stress of unsaturated soils subjected to vertical steady flow. A rotational failure mechanism composed of a log-spiral curve and a vertical crack is presented for calculations of the external work rate and internal energy dissipation rate. Pre-existing cracks as well as cracks that form as part of the failure mechanism are considered in the present work. The maximum depth of cracks is determined by requiring the vertical crack boundary to be stable. Explicit expressions about the thrust of active earth pressure for different crack types are derived from the work–energy balance equation, and the most critical solutions are obtained by optimizing the variables from the failure mechanism. Numerical results for different parameters are calculated and given in the form of graphs for practical use. A parametric study is performed to investigate the impact of different parameters on the active earth pressure.

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Active static and seismic earth pressure for c–φ soils

Cited by 48 publications

References 23 publications

Axisymmetric active lateral earth pressure for c- soils using the stress characteristics method

Axisymmetric active lateral earth pressure for c- soils using the stress characteristics method

Static and Seismic Stability Charts for Three‐Dimensional Cut Slopes and Natural Slopes under Short‐Term Undrained Conditions

Active earth pressure for soils with tension cracks under steady unsaturated flow conditions

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