Material Science
Copper
100%
Dislocation
74%
Fatigue Crack Growth
70%
Single Crystal
69%
Crack
68%
Coating
38%
Nanoindentation
37%
Plasticity
34%
Film
23%
Fatigue Crack
23%
Short Crack
22%
Crack Growth
21%
Plastics
20%
Grain Boundary
20%
Indentation
19%
Stress Analysis
17%
Temperature
17%
Velocity
17%
Surface
17%
Stiffness
15%
Diamond
13%
Nucleation
10%
Tungsten
8%
Strain Rate
8%
Silicon
8%
Helium
8%
Tensile Loads
8%
Anisotropy
8%
Nanomechanics
8%
Fatigue Behavior
8%
Finite Element Method
7%
Ultimate Tensile Strength
6%
Linear Elastic Fracture
6%
Fracture Mechanics
6%
Metal
6%
Shear Loads
5%
Fatigue of Materials
5%
Engineering
Crystallographic Orientation
54%
Tensiles
39%
Mechanical Response
38%
Defects
36%
Computer Simulation
35%
Elements
33%
Crack Growth Rate
27%
Tensile Loads
26%
Dislocation
22%
Short Crack
22%
Fatigue Crack
20%
Slip Plane
20%
Edge Crack
20%
Models
18%
Beam Length
17%
Scaling
17%
Displacement-Controlled Loading
17%
Temperature
17%
Beam Cross Section
17%
Fatigue Crack Growth
17%
Nanometre
16%
Growth Behavior
16%
Mechanical Properties
15%
Plane Strain Condition
13%
Force Displacement
13%
Plastic Zone
12%
Mechanical Loading
11%
Development
11%
Crystal Orientation
11%
Final Failure
10%
Fatigue Load
10%
Displacement Curve
9%
Stress-Strain Curve
8%
Holding Beam
8%
Face-Centered Cubic
8%
Numerical Modeling
8%
Tensile Stress σ
8%
Initial Stiffness
8%
Strain Rate
8%
Atomic Arrangement
8%
Cu Film
8%
Peridynamics
8%
Optimization
8%
Diamond Tool
8%
Grain Boundary
8%
Square Cross
7%
Loading Direction
7%
Edge Crack
7%
Linear Elastic Fracture Mechanic
7%
Crack Growth Behavior
7%
