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Evolution of shear bands in sand
G. Gudehus,
K. Nübel
University of Karlsruhe
Ed. Züblin AG
Research output
:
Contribution to journal
›
Article
›
peer-review
145
Scopus citations
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Keyphrases
Sand
100%
Shear Band
100%
Shear Localization
100%
Numerical Results
66%
Granular Materials
66%
Material Behavior
33%
Law
33%
Experimental Verification
33%
Probability Density Function
33%
Optical Methods
33%
Constitutive Law
33%
Void Fraction
33%
Particle Image Velocimetry
33%
Stress Boundary Condition
33%
Hypoplastic
33%
Structural Inhomogeneity
33%
Couple Stress
33%
Localized Deformation
33%
Shear Zone
33%
Displacement Boundary Condition
33%
Fundamental Phenomena
33%
Granular Glands
33%
Nonsymmetric Stress
33%
Intrinsic Length
33%
Biaxial Apparatus
33%
Cosserat Continuum
33%
Cemented Granular Materials
33%
Non-cement
33%
Engineering
Shear Band
100%
Shear Localization
100%
Experimental Result
33%
Material Behavior
33%
Particle Image Velocimetry
33%
Displacement Boundary Condition
33%
Granular Body
33%
Cosserat Continuum
33%
Shear Zone
33%
Probability Density Function
33%
Physics
Granular Material
100%
Shear Band
100%
Boundary Condition
33%
Critical State
33%
Particle Image Velocimetry
33%
Optical Method
33%
Material Science
Shear Band
100%
Granular Material
100%
Density
33%
Particle Image Velocimetry
33%