Engineering
Dynamic Loads
89%
Energy Absorption
80%
Static Loading
67%
Computer Simulation
63%
Deformation Mode
60%
Selective Laser Melting
54%
Strain Rate
49%
Mechanical Response
44%
Ti-6al-4v
34%
Electron Beam Melting
34%
Stainless Steel
31%
Finite Element Modeling
29%
Impact Loads
27%
Failure Mode
24%
High-Entropy Alloys
23%
Dynamic Behavior
23%
Strain Relationship
20%
Split Hopkinson Pressure Bar
20%
Compressive Behavior
20%
Loading Velocity
20%
Defects
19%
Energy Engineering
19%
Dynamic Response
18%
Energy Absorption Capacity
18%
Testing Machine
18%
Mechanical Performance
18%
Deformation Mechanism
17%
Absorption Performance
17%
Deformation Behavior
17%
Loading Rate
17%
Drop Hammer
17%
Printed Structure
17%
Structure Surface
17%
Structural Design
17%
Simulation Result
16%
Finite Element Method
16%
Experimental Result
15%
Nominal Stress
15%
Lattice Specimen
15%
Correlation Method
15%
High Strain Rate
14%
Determines
14%
Body-Centered Cubic
14%
Manufactured Lattice Structure
14%
Strain Rate Sensitivity
14%
Density Gradient
14%
Digital Camera
14%
Impact Velocity
13%
Impact Dynamics
13%
Beam Element
12%
Material Science
Crystal Structure
100%
Mechanical Strength
86%
Strain Rate
71%
Dynamic Loads
52%
Density
51%
Selective Laser Melting
39%
Static Loading
36%
Mechanical Property
33%
Stainless Steel
31%
Lattice Material
24%
Impact Loads
23%
Ti-6Al-4V
23%
Metamaterial
23%
High Entropy Alloys
23%
Deformation Mechanism
21%
Surface Structure
21%
Finite Element Modeling
17%
Aluminum
15%
Nanocrystalline
15%
Mechanical Testing
15%
Titanium
15%
Three Dimensional Printing
15%
Compressive Strength
13%
Large Deformation
13%
Volume Fraction
12%
Plastic Deformation
12%
Electron Beam Powder Bed Fusion
11%
Matrix Composite
11%
Diamond
11%
Composite Structure
11%
Blast Resistance
11%
Aluminum Composite
11%
Debonding
11%
Yield Surface
11%
Effect of Strain
11%
Finite Element Method
11%
Cellular Material
9%
Single Crystal
9%
Steel Fiber
9%
Fused Filament Fabrication
8%
Yield Stress
8%
Work Hardening
5%