Identification of deformation and failure characteristics in cataclinal slopes using physical modeling
Journal
Landslides
Journal Volume
14
Journal Issue
2
Start Page
499
End Page
515
ISSN
1612510X
Date Issued
2017
Author(s)
Lo, Chia-Ming
Abstract
This study investigates the deformation characteristics of cataclinal slopes in central Taiwan prior to landslide failure. Field surveys and physical model tests were performed to explain the gravitational deformation characteristics of cataclinal slopes under various conditions and to derive the deformation process and failure characteristics. The results show that the distribution of erosion gullies (different length of the slope mass), the extent of erosion (different thickness of the slope mass), the foliation dip angle, and the geological material critically affect the deformation of cataclinal slope masses in the study area. The results of physical model tests indicate that increasing the foliation dip angle, the thickness and the length of sliding mass, particle size (spacing between foliations) increases the depth of slope deformation. Foliation dip angle is the most critical factor that controls the deformation of slate slopes. When the cataclinal slopes reached maximum deformation, a shear failure and translational slide occurred within a short period. The deformation zone exhibited significant cracking at the scarp and the bulging of the slope toe, which facilitated the infiltration of surface water and groundwater, accelerating the deformation to failure. © 2016, Springer-Verlag Berlin Heidelberg.
Subjects
Cataclinal slope
Deformation process
Failure characteristics
Physical model
Publisher
Springer Verlag
Type
journal article