Comparative analyses of finite element and limit-equilibrium methods for heavily fractured rock slopes

Limit-equilibrium method (LEM) and finite element method (FEM) with shear strength reduction (SSR) technique are the most widely used analysis tools in slope stability assessment. Recently, researchers have reported that both factor of safety (FOS) values and failure surfaces obtained from LEM and F...

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Bibliographic Details
Published in:Journal of Earth System Science 2020-12, Vol.129 (1), p.49, Article 49
Main Authors: Kadakci Koca, Tümay, Koca, M Yalçin
Format: Article
Language:English
Subjects:
Angles (geometry)
Comparative analysis
Earth and Environmental Science
Earth Sciences
Equilibrium
Equilibrium methods
Failure surface
Finite element method
Geometry
Groundwater table
Mathematical models
Methods
Rock
Rock masses
Rocks
Safety factors
Seismic stability
Shear strength
Slope stability
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Stability analysis
Statistical analysis
Statistical methods
Water table
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Summary:Limit-equilibrium method (LEM) and finite element method (FEM) with shear strength reduction (SSR) technique are the most widely used analysis tools in slope stability assessment. Recently, researchers have reported that both factor of safety (FOS) values and failure surfaces obtained from LEM and FEM are generally in good agreement except in some particular cases. On the other hand, the consistency between two methods has not been adequately discussed for heavily fractured rock mass models by employing Generalized Hoek–Brown Criterion (GHBC). In this study, the FOS values and failure surfaces derived from LEM and FE-SSR based on GHBC were compared concerning static and pseudo-static conditions, various overall slope angles, geological strength index (GSI) values, and various water table levels. In this context, three homogeneous, highly fractured rock slope models with irregular geometry and different slope heights were generated by two-dimensional Slide and Phase 2 software. Limit-equilibrium (LE) analyses were performed by Bishop, Fellenius, Morgenstern–Price, and Spencer techniques. The comparisons of global minimum FOS values for 431 cases and the effects of variables on two methods were investigated by statistical analyses. Consequently, it was determined that the difference between the FOS values are statistically significant. However, if the seismic coefficient is higher than 0.1 g, slope angle is higher than 34°, and the slope is assumed to be fully saturated, Morgenstern–Price is the most well-matched technique with FE-SSR than the others. For the same cases, the failure surfaces detected by Fellenius is more similar to the ones detected by FE-SSR.
ISSN:2347-4327
0253-4126
0973-774X
DOI:10.1007/s12040-019-1314-3