Stochastic analysis method of critical slip surfaces in soil slopes considering spatial variability

QI Xiao-hui; LI Dian-qing; ZHOU Chuang-bing; PHOON Kok-kwang

Volume 35 Issue 4

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Chinese Journal of Geotechnical Engineering > 2013 > 35(4): 745-753.

QI Xiao-hui, LI Dian-qing, ZHOU Chuang-bing, PHOON Kok-kwang. Stochastic analysis method of critical slip surfaces in soil slopes considering spatial variability[J]. Chinese Journal of Geotechnical Engineering, 2013, 35(4): 745-753.

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Stochastic analysis method of critical slip surfaces in soil slopes considering spatial variability

1. State Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan University, Wuhan 430072, China; 2. Key Laboratory of Rock Mechanics in Hydraulic Structural Engineering (Wuhan University), Ministry of Education, Wuhan 430072, China; 3. Department of Civil and Environmental Engineering, National University of Singapore, 117576, Singapore

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Received Date: May 24, 2012
Published Date: April 17, 2013

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Abstract

The effect of spatial variability in soil parameters on the critical slip surfaces has not been investigated substantially. Therefore, this paper aims to propose a stochastic method to determine the critical slip surfaces in soil slopes considering spatial variability of soil strength properties. First, the spectral representation method is adopted to simulate random field of spatially varying soils. Based on this random field model, the critical slip surface is determined by means of the auto-searching method with SIGMA/W and SLOPE/W. Second, the effect of spatial variability in soil parameters on the characteristics of the critical slip surfaces is investigated using a non-intrusive stochastic analysis method. Finally, an illustrative example is presented to demonstrate the validity of the proposed method. The results indicate that the proposed stochastic method can determine the characteristics of the critical slip surfaces effectively. The spatial variability has a significant influence on the position and scale of the critical slip surfaces. The longer the scale of fluctuation is, the wider the critical slip surface distribution is. The possibility of upper-located local sliding increases with the increasing ratio of horizontal fluctuation scale to vertical fluctuation scale. As the coefficients of variation of soil parameters increase, the range of critical slip surface will increase, and small-scale local sliding is more likely to happen.
- slope stability,
- critical slip surface,
- spatial variability,
- non-intrusive stochastic analysis,
- factor of safety

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