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A micromechanics-based Cosserat-type model for dense particulate solids
Xi Zhang
, Robert G. Jeffrey
,
Yiu Wing Mai
Research output
:
Journal article publication
›
Journal article
›
Academic research
›
peer-review
8
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Keyphrases
Relative Displacement
100%
Micromechanics
100%
Order Parameter
100%
Relative Rotation
100%
Cosserat
100%
Particulate Solids
100%
Anisotropy
50%
Thermodynamics
50%
Two Dimensional
50%
Free Energy
50%
Total Work
50%
Governing Equation
50%
Shear Stress
50%
Applied Load
50%
Continuum Theory
50%
Rotational Degrees of Freedom
50%
Media Motion
50%
Simple Shear
50%
Shear Strain
50%
Linear Relation
50%
Frictional Contact
50%
Cohesionless
50%
Dilatancy
50%
Phase Field
50%
Stress Anisotropy
50%
Work-as-done
50%
Interparticle Interactions
50%
Density Variation
50%
Particle Assembly
50%
Granular Media
50%
Force Chain
50%
Perfect Lattice
50%
Granular Systems
50%
Normal Deformation
50%
Elastic Medium
50%
Couple Stress
50%
Rigid Disc
50%
Material Symmetry
50%
Orientation Averaging
50%
Constant Stiffness
50%
Dense Particles
50%
Frictional Systems
50%
Engineering
Relative Displacement
100%
Model Type
100%
Micromechanics
100%
Phase Field
50%
Two Dimensional
50%
Experimental Observation
50%
Degree of Freedom
50%
Applied Load
50%
Rotational
50%
Frictional Contact
50%
Simple Shear
50%
Dilatancy
50%