Engineering
Alloy
100%
Sonication
84%
Nanocomposites
72%
Strain Amplitude
64%
Strain
55%
Fatigue Behavior
50%
Nanoclays
49%
Low Cycle Fatigue
42%
Multiaxial Fatigue
42%
Stainless Steel
42%
Fatigue Life
35%
Monotonic
27%
Controlled Fatigue
25%
Fracture
25%
Photovoltaic Modules
21%
Crack Initiation
21%
Power Output
21%
Stress-Intensity Factor
21%
Crack Front
21%
Core Region
21%
Nonproportional Loading
21%
Mechanical Properties
21%
Deformation
21%
Solar Photovoltaic
21%
Clay Content
21%
Organoclay
21%
Water
21%
Applied Strain
18%
Crack
17%
Fatigue Testing
14%
Scatter Band
14%
Cyclic Stress
13%
Cycles
13%
Surface
12%
Thickness
12%
Hysteresis Loop
12%
Damage Model
11%
Fatigue Damage
11%
Plastic Deformation
9%
Microstructural Characteristic
9%
Strain Hardening
9%
Determines
9%
Plastic Strain
9%
Tensile Loads
9%
Stress Softening
9%
Inclination Angle
8%
Mixed Mode
8%
Steel Grade
8%
Phase Loading
8%
Loading Path
8%
Transition Temperature
7%
Microstructure
7%
Tensiles
7%
Models
7%
Shear Behavior
7%
Mechanical Fatigue Test
7%
Estimation
7%
Laboratory
7%
Extrusion
7%
Saturation Value
7%
Mixing
6%
Epoxy Matrix
6%
Surface Crack
5%
Damage Behavior
5%
Multiple Crack
5%
Monotonic Loading
5%
Crack Path
5%
Fatigue Cycle
5%
Fatigue Property
5%
Good Correlation
5%
Longitudinal Direction
5%
Al Alloy
5%
Macroscopic
5%
Stabilization
5%
Shear Strain
5%
Cyclic Loading
5%
Energy Density
5%
Material Science
Strain
87%
Nanocomposites
75%
Clay
71%
Fatigue Behavior
50%
Nanoclay
46%
Alloy
42%
Multiaxial Fatigue
42%
Aluminum-Lithium Alloys
42%
Low-Cycle Fatigue
42%
Stainless Steel
42%
Fatigue of Materials
27%
Morphology
24%
Thermal Property
21%
Magnesium Alloy
21%
Water
21%
Fatigue Life
21%
Scanning Electron Microscopy
13%
Plastics
11%
Fatigue Damage
11%
Saturation
10%
Materials
10%
Mechanical Strength
9%
Crack
8%
Mixing
8%
Ductility
8%
Differential Scanning Calorimetry
8%
X-Ray Diffraction
8%
Epoxy
7%
Glass Transition Temperature
7%
Stress Softening
7%
Magnesium
7%
Extrusion
7%
Plastic Deformation
5%
Grain Size
5%
Tensile Loads
5%
Work Hardening
5%