Material Science
Residual Stress
100%
Material
32%
Crack
24%
Surface
21%
Defect
16%
Microstructure
16%
Strain
15%
Spring Steel
15%
Fatigue of Materials
14%
Hardness
13%
Stress Field
12%
Powder
12%
Fatigue Crack Growth
12%
Laser
11%
Laser Powder Bed Fusion
11%
MAX Phases
10%
Aging of Materials
10%
Diffraction Measurement
9%
Finite Element Modeling
9%
Coating
9%
Solution
9%
Synchrotron X-Ray Diffraction
9%
Neutron Diffraction
8%
Mechanical Property
8%
Plastics
8%
Elastic Constant
8%
Temperature
8%
Reinforcement
8%
Indentation
8%
Three Dimensional Printing
7%
Lattice Constant
7%
Characterization
7%
Texture
7%
Titanium
7%
X-Ray Diffraction
7%
Viscoplasticity
7%
Surface Roughness
7%
Nanoindentation
7%
Cold Expansion
7%
Aluminum Alloys
6%
Inconel
6%
Yield Stress
6%
Alloy
5%
Mechanical Strength
5%
Stress Relaxation
5%
Self-Diffusion
5%
Shot Peening
5%
Surface Treatment
5%
Inclusion
5%
Microhardness
5%
Engineering
Residual Stress
49%
Laser Shock Peening
21%
Surfaces
20%
Aluminum Alloys
16%
Compressive Residual Stress
16%
Measurement
14%
Fatigue Crack Growth
14%
Contour Method
13%
Welds
13%
Crack
12%
Stress Field
11%
Fatigue Crack
10%
Crack Growth
10%
Shot Peening
10%
Laser Peening
9%
Fatigue Life
9%
Neutrons
9%
Residual Stress Profile
9%
Alloy
8%
Strain
7%
Aerospace Material
7%
Microstructure
7%
Crack Initiation
6%
Models
6%
Deformation
6%
Structural Integrity
6%
Ti-6al-4v
6%
Tensile Residual Stress
5%
Hole Drilling
5%
Measurer
5%
Artificial Neural Network
5%
Driver Model
5%
Residual Strain
5%
Performance
5%
Austenitic Stainless Steel
5%
Retarders
5%
Ultrasonics
5%
Physics
Strain
26%
Residual Stress
20%
Neutrons
17%
Stress Distribution
15%
Alloy
13%
Neutron Diffraction
12%
Utilization
12%
Cracks
10%
Synchrotron X-Ray Diffraction
9%
Independent Variables
7%
Laser
7%
Fatigue Crack
6%
Surface Roughness
6%
Temperature
6%
Model
6%
Stress Intensity Factors
6%
Strain Measurement
5%
Plane
5%
Oxygen
5%
Residual Strain
5%
Beamline
5%