Effects of hydraulic conductivity/strength anisotropy on the stability of stratified, poorly cemented rock slopes

Jia Jyun Dong, Chia Huei Tu, Wong Ru Lee, Yun Jia Jheng

Research output: Contribution to journalArticlepeer-review

33 Scopus citations

Abstract

This paper presents a numerical procedure to explore how hydraulic conductivity anisotropy and strength anisotropy affect the stability of stratified, poorly cemented rock slopes. The results provide information about the anisotropic characteristics of the medium, including the orientation of bedding planes, the anisotropic ratios of the hydraulic conductivity and the geological significance of the hydraulic conductivity anisotropy on the pore water pressure (PWP) estimation of finite slopes. Neglecting the hydraulic conductivity anisotropy of a slope with horizontal layers leads to a 40% overestimation of the safety factor. For a dip slope with inclined layers with θ= 30°, including the strength anisotropy caused a 25% reduction of the safety factor compared to the cases which isotropic strength is assumed. This paper highlights the importance of the hydraulic-conductivity anisotropy and the strength anisotropy on the stability of stratified, poorly cemented rock slopes.

Original languageEnglish
Pages (from-to)147-159
Number of pages13
JournalComputers and Geotechnics
Volume40
DOIs
StatePublished - Mar 2012

Keywords

  • Hydraulic conductivity anisotropy
  • Poorly cemented rock slopes
  • Slope stability
  • Stratified
  • Strength anisotropy

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