Metamodel-Based Slope Reliability Analysis—Case of Spatially Variable Soils Considering a Rotated Anisotropy

Zhang, Tingting; Guo, Xingwu; Baroth, Julien; Dias, Daniel

doi:10.3390/geosciences11110465

Cited by 4 publications

(1 citation statement)

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“…The FELA approach automates the search for the safety factor, combining the advantages of finite element and limit analysis methodologies. Furthermore, by using adaptive mesh techniques into the calculation, the slip plane can be identified directly (Hu et al, 2024;Zhang et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Stability Assessment of Root-Reinforced Slopes Using Finite Element Limit Analysis

Hutama,

Farichah

2024

jpensil

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Slope instability poses serious threats to infrastructure and environmental sustainability. As a result, numerous reinforcement techniques have been used as disaster mitigation attempts to prevent slope failure. Among various traditional slope reinforcement methods, the use of vegetion root is more cost-effective and environmentally friendly. This paper presents stability assessment of root-reinforced slopes. Firstly, slope models were built for case of bare and root-reinforced slopes. The slope angles were varied in the range of 15º ~ 55 º. The root cohesion and depth of root zone were adjusted within the ranges of 0 ~ 20 kPa and 0 ~1.5 m, respectively. The strength reduction finite element limit analysis method was applied to evaluate the stability of the slopes in this study. The results indicate that factor of safety increases with the increasing of root cohesion and depth of root zone. The best factor of safety was obtained for the case with root cohesion and depth of root zone of 20 kPa and 1.5 m, respectively. Shear dissipation contours of the slope models also show that root reinforcement reduces shear dissipation energy along the failure surface, consequently lowering the possibility of slope failure.

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Section: Introductionmentioning

confidence: 99%