Engineering
Shock Loads
100%
One Dimensional
67%
Shear Strength
63%
Deformation Mechanism
60%
Microstructure
47%
Shock Front
43%
Damage Evolution
40%
Diamond
40%
Defects
39%
Lateral Stress
38%
Rod
32%
Transition to Detonation
28%
Dynamic Loads
27%
Peak Stress
26%
High Strain Rate
25%
Constitutive Model
24%
Heat Treatment
24%
Loading Path
24%
Impact Test
24%
Impact Speed
24%
Tensiles
22%
Mesoscale
22%
Rear Surface
22%
Elastic Limit
21%
Strain Rate
21%
Impact Velocity
20%
Face-Centered Cubic
20%
Brittle Material
20%
Mechanical Response
18%
Centered Cubic Metal
18%
Peierls Stress
18%
Failure Process
18%
Length Scale
16%
Pure Aluminum
16%
Temporal Variation
16%
Spatial Variation
16%
Cylindrical Rod
16%
Intermetallics
16%
Polycrystalline Metal
16%
Constitutive Modeling
16%
Macroscale
16%
Theoretical Strength
16%
Crystalline Phase
16%
Indentation
16%
Deflagration
16%
Body-Centered Cubic
16%
Loading Condition
14%
Failure Mechanism
14%
Bond Strength
14%
Stress State
14%
Material Science
Shock Loads
93%
Shear Strength
84%
Deformation Mechanism
67%
Tantalum
38%
Damage Evolution
35%
Brittleness
32%
Amorphous Material
29%
Strain Rate
29%
Thermoplastics
28%
Molybdenum
27%
Aluminum Alloys
27%
Niobium
27%
Tomography
24%
Heat Treatment
24%
Diamond
24%
Crystalline Material
24%
Magnesium Alloy
24%
X-Ray Microtomography
20%
Yield Stress
20%
Polyethylene
18%
Density
18%
Composite Material
16%
Silicate
16%
Ti-6Al-4V
16%
Indentation
16%
Constitutive Modeling
16%
Carbon Fiber
16%
Dynamic Loads
14%
Ultimate Tensile Strength
14%
Tungsten
13%
Grain Boundary
12%
Ceramic Armor
12%
Intermetallics
12%
Transmission Electron Microscopy
12%
Nucleation
11%
Metallography
11%
Stacking Fault
10%
Manganin
10%
Electron Backscatter Diffraction
8%
Anisotropy
8%
Fracture Mechanics
8%
HMX
8%
Quasi-Brittle Material
8%
Aluminum Oxide
8%
Aluminum-Magnesium Alloys
8%
Radiographic Testing
8%
Beryllium
8%
Neutron Irradiation
8%
Linear Elastic Fracture
8%
Digital Volume Correlation
8%