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Multiscale Modelling of the Slope Stability of Block-in-Matrix Materials
Clairet I. Guerra
, Jeisson J. Pinzón
, Luis F. Prada
,
Alfonso M. Ramos
Department of Civil Engineering
Risk in natural and anthropic systems
Universidad Javeriana
Research output
:
Contribution to journal
›
Conference article
›
peer-review
9
Scopus citations
Overview
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Keyphrases
Bimrock
50%
Block Shape
50%
Cohesion
50%
Continuous Medium
50%
Degree Heterogeneity
50%
Equilibrium Slope
50%
Exponential Function
50%
Finite Element
50%
Friction Angle
100%
Great Uncertainty
50%
Heterogeneous Materials
50%
Homogeneous Material
50%
In-matrix
100%
Limit Equilibrium
100%
Material Analysis
50%
Multiscale Modeling
100%
Multiscale numerical Modeling
50%
Resistance Variation
50%
Safety Factor
50%
Slope Analysis
50%
Slope Stability
100%
Solid Media
50%
Sphericity
50%
Surface Area Ratio
50%
Triaxial Test
50%
Variation Parameters
50%
Volume Ratio
50%
Volumetric Proportion
50%
INIS
comparative evaluations
100%
equilibrium
100%
finite element method
50%
friction
100%
implementation
50%
inclusions
50%
increasing
50%
matrix materials
100%
modeling
100%
rocks
50%
safety
50%
shape
50%
slope stability
100%
soils
50%
solids
50%
surface area
50%
variations
50%
volume
50%
Engineering
Continuous Medium
50%
Digital Elevation Model
50%
Exponential Function
50%
Factor of Safety
50%
Finite Element Analysis
50%
Friction Angle
100%
Matrix Material
100%
Multiscale
100%
Multiscale Modeling
100%
Numerical Modeling
50%
Parameter Variation
50%
Slope Stability
100%
Sphericity
50%
Surface Area Ratio
50%
Volume Ratio
50%
Material Science
Discrete Element Method
100%
Finite Element Methods
100%
Heterogeneous Material
100%
Homogeneous Material
100%
Slope Stability
100%