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- Title
Applicability Research on the Dip Slope with Interbeddings of Weak and Strong Rocks Using Strength Reduction Method.
- Authors
Yao, Wenmin; Hu, Bin; Ma, Chong; Zhan, Hongbin
- Abstract
Based on the combination of FLAC software and strength reduction method, the applicability of three kinds of instability criterion of the stability of dip slopes with interbeddings of weak and hard rocks is studied. Then the failure process, failure mode and stability of the slopes are analyzed. The results show that: (1) the maximum unbalance rate affects the final calculated results; there is no certain relation between the convergence of calculation and the slope stability. The convergence of the displacement curves of key points and the ultimate displacement values should also be concerned to determine the slope stability. The maximum unbalance rate and the amplitude of the reduction affect the determination of the characteristic point in the displacement curve. It is difficult to quantitatively evaluate the shear strain rate when judging the slope stability, the judgment is not convenient and the error is large. Combining with calculation convergence criterion and feature point displacement mutation criterion is helpful to improve the accuracy of judgment on the limit state of the slope. (2) Slope deformation and failure process can be roughly divided into four stages qualitatively; the rock mass has buckling failure can be divided into three stages according to the deformation characteristics. The potential shear export of slope with buckling failure locates above the slope toe. Different combinations of weak and strong rock thickness does not affect the failure mode of slope, which all bellows to buckling failure mode, but it will affect the slope stability coefficient; with the increase of the thickness of strong rock and weak rock, the stability coefficient increases. If the thickness of the strong rock increases, the stability coefficient increases as well when the thickness ratio is constant.
- Subjects
SLOPES (Physical geography); FAILURE mode &; effects analysis; SEDIMENTARY rocks; NUMERICAL analysis software; DATA extraction
- Publication
Geotechnical & Geological Engineering, 2017, Vol 35, Issue 3, p1111
- ISSN
0960-3182
- Publication type
Article
- DOI
10.1007/s10706-017-0167-2