Keyphrases
Anisotropic Model
100%
Spall Damage
100%
Damage Process
50%
Shock Loading
33%
Stockpile Stewardship
33%
Damage Localization
33%
Metallic Materials
33%
Spalling Failure
33%
Strain Rate
33%
Plastic Anisotropy
33%
Structural Inhomogeneity
33%
Damage Evolution
33%
Micro-inertia
33%
Velocity Field
33%
Grain Boundary
16%
Loading Conditions
16%
Equation of State
16%
Anisotropic Material Behavior
16%
Void Growth
16%
Pressure Rate
16%
Void Growth Model
16%
Slip Process
16%
Strain-stress Field
16%
Unit-cell Calculations
16%
Electron Backscatter Diffraction
16%
Focused Ion Beam
16%
Microstructure
16%
Elastic Constants
16%
Spatial Arrangement
16%
Coalescence Model
16%
Stress Rate
16%
Void Interaction
16%
Void Coalescence
16%
Rutile
16%
Material Stress
16%
Induced Porosity
16%
Materials under Extreme Conditions
16%
Simualtion
16%
Cubic Symmetry
16%
Nucleate
16%
Stress Dependence
16%
Strongly Coupled
16%
Temperature Effect
16%
Elastic Anisotropy
16%
Advanced Photon Source
16%
Numerical Simulation
16%
Anisotropy
16%
Strain Velocity
16%
Physical Processes
16%
Crystal Symmetry
16%
Serial Sectioning
16%
Growth Model
16%
Localization Sites
16%
Fully Developed
16%
Dislocation Slip
16%
Free Surface
16%
Crystalline Nature
16%
Crystalline Materials
16%
Direct Benefits
16%
Damage Coalescence
16%
Lattice Rotation
16%
Large Grain
16%
Damage Growth
16%
Engineering Model
16%
Intrinsic Defects
16%
Crystal Plasticity
16%
Material Formulation
16%
3D Geometry
16%
Material Anisotropy
16%
Spall
16%
X-ray Computed Tomography (X-CT)
16%
Stress Triaxiality
16%
Dynamic Load
16%
Crystal Orientation
16%
Constitutive Model
16%
3D Data
16%
Anisotropic Damage Evolution
16%
Shock
16%
Engineering
Anisotropic
100%
Microstructure
50%
Damage Evolution
50%
Damage Process
50%
Velocity Field
33%
Shock Loads
33%
Extreme Condition
33%
Strain Rate
33%
Defects
33%
Void Growth
33%
Free Surface
16%
Superposition
16%
Experimental Result
16%
Load Condition
16%
Stress Dependence
16%
Slip Process
16%
Elastic Constant
16%
Backscattered Electron
16%
Release Wave
16%
Anisotropic Damage
16%
Focused Ion Beam
16%
Increasing Stress
16%
Computer Simulation
16%
Engineering Model
16%
Material Anisotropy
16%
Constitutive Model
16%
Strain Field
16%
Increasing Strain
16%
Cubic Symmetry
16%
Equation of State
16%
Microscale
16%
Damage Growth
16%
Grain Boundary
16%
Dynamic Loads
16%
Collected Data
16%
Induced Failure
16%
Temperature Dependence
16%
Porosity
16%
Reflected Shock
16%
Dynamic Condition
16%
Stress Triaxiality
16%
Material Behavior
16%
Material Science
Damage Evolution
100%
Strain Rate
66%
Metal
66%
Plastic Anisotropy
66%
Crystalline Material
66%
Shock Loads
66%
Void Growth
66%
Anisotropy
66%
Elastic Constant
33%
Crystallography
33%
Anisotropic Material
33%
Titanium
33%
Crystal Plasticity
33%
Focused Ion Beam
33%
Dynamic Loads
33%
Crystal Symmetry
33%
Grain Boundary
33%
Tomography
33%