Litcius/Paper detail

Analytical method of stability analyses of toppling rock slopes subjected to flexural toppling failure damage

Weijie Zhou, Weiya Xu, Yu Ning, Haibin Xiao, Wei‐Chau Xie

2020European Journal of Environmental and Civil engineering10 citationsDOI

Abstract

The mechanism of toppling deformation and failure is important in the stability analysis of anti-dip layered rock slopes, especially in a complex hydrogeological environment. In this paper, the flexural failure model is proposed for describing the mechanical behavior of toppling rock slope using the cantilever beam theory. A method for safety evaluation, considering the action of hydrodynamic force from groundwater, is developed. This model is then applied to conduct a case study of a toppling rock slope at a hydropower station on the Lancang River. The results show that the variation of reservoir water level increases both the tensile stresses and the deflections of rock slabs, which is manifested macroscopically by flexural displacements and failure. Based on the failure surfaces, the slope can be divided into three parts: toppling zone, creep zone, and shear zone. The failure mode of toppling rock slope is a combination of shear and toppling. Under the combined action of earthquake and rapid water drawdown, the toppling rock slope is at risk of shear instability at the leading edge; hence monitoring should be strengthened and prevention measures should be taken.

Topics & Concepts

GeologyGeotechnical engineeringFlexural strengthFailure mode and effects analysisHydrogeologySlope stabilityShear (geology)LandslideMagnetic dipInstabilityPetrologyStructural engineeringEngineeringGeophysicsPhysicsMechanicsLandslides and related hazardsDam Engineering and SafetyGeotechnical Engineering and Analysis