Keyphrases
Mobile Dislocation
100%
Dislocation Kinetics
100%
Kinetic Approach
100%
Bcc Metals
100%
Shock Waves
100%
Dislocation
83%
Hugoniot Elastic Limit
50%
Continuum Scale
50%
Material Model
50%
Elastic Precursor
33%
Numerical Results
33%
Dislocation Mechanics
33%
Shock
33%
Continuum Model
33%
Dislocation Velocity
33%
Orthotropic
33%
Slip System
16%
Numerical Value
16%
Tantalum
16%
Time Waves
16%
Plate Impact Experiment
16%
Experimental Values
16%
Equations of Motion
16%
Pulse Length
16%
Kinetic Equation
16%
Stress Level
16%
Mechanics Model
16%
High Strain Rate Loading
16%
Three-state
16%
Longitudinal Stress
16%
Shock Front
16%
Plastic Deformation
16%
Constitutive Model
16%
Bcc Materials
16%
Precursor Wave
16%
Orowan
16%
Plastic Strain Ratio
16%
Material Behavior
16%
Biaxial Strain
16%
Immobilization
16%
Strain State
16%
Single Crystal
16%
Physical Effects
16%
Solid Element
16%
Dislocation Annihilation
16%
Stress Pulse
16%
Wave Propagation
16%
Yield Surface
16%
Micromechanics
16%
System of Equations
16%
Model Validation
16%
Short Time Scale
16%
Density Evolution
16%
Equation of State
16%
Relaxation Time
16%
Engineering
Bcc Metal
100%
Fcc Metal
100%
Mobile Dislocation
100%
Elastic Limit
50%
Material Model
50%
Dislocation Velocity
33%
State Variable
33%
Face-Centered Cubic
33%
Continuum Model
33%
Shockwave
16%
Slip System
16%
Plastic Deformation
16%
Numerical Value
16%
Fcc Material
16%
Longitudinal Stress
16%
Nanosecond
16%
Stress Level
16%
Experimental Value
16%
Kinetic Equation
16%
High Strain Rate
16%
Equation System
16%
Mechanic Model
16%
Micromechanics
16%
Plastic Strain Rate
16%
Shock Front
16%
Equations of State
16%
Microscale
16%
Strain State
16%
Impact Test
16%
Constitutive Model
16%
Yield Surface
16%
Pulse Length
16%
Relaxation Time
16%
Stress Pulse
16%
Solid Element
16%
Material Behavior
16%
Axial Strain
16%
Material Science
Density
100%
Strain Rate
40%
Impact Testing
20%
Single Crystal
20%
Tantalum
20%
Aluminum
20%
Yield Surface
20%
Micromechanics
20%
Plastic Deformation
20%