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On the stability of landslides: A thermo-poro-elastic approach
Liran Goren
*
,
Einat Aharonov
*
Corresponding author for this work
Fredy & Nadine Herrmann Institute of Earth Sciences
Research output
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Article
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peer-review
62
Scopus citations
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Keyphrases
Bifurcation
50%
Catastrophic Landslide
100%
Creep
50%
Creep Velocity
50%
Elastic Approach
100%
Fluid-saturated
50%
Friction
50%
Frictional Heating
100%
Frictional Resistance
50%
Geometrical Parameters
50%
High Permeability
50%
High Pore Pressure
50%
High-speed Sliding
50%
Landslide
50%
Landslide Stability
100%
Low Permeability
50%
Mechanical Parameters
50%
Phase Plane
100%
Pore Pressure
50%
Pore Pressure Diffusion
50%
Poroelastic Model
50%
Pressure Rise
50%
Pressure-velocity
50%
Process Dynamics
50%
Rock Mass
50%
Self-stabilization
50%
Sensitivity Study
50%
Separatrix
50%
Shear Zone
50%
Shortest Distance
50%
Sliding Mass
50%
Sliding Process
100%
Sliding Regime
50%
Sliding Stability
100%
Sliding Velocity
50%
Temperature Rise
50%
Thermal Pressurization
100%
Thermo-poroelastic
100%
Engineering
Creep
100%
Elastic Model
50%
Frictional Heating
100%
Frictional Resistance
50%
Geometrical Parameter
50%
Mechanical Property
50%
Phase Plane
100%
Pressure Rise
50%
Process Dynamic
50%
Rock Mass
50%
Sensitivity Study
50%
Shear Zone
50%
Sliding Velocity
100%
Temperature Increase
50%
Thermal Pressurization
100%