Material Science
Tomography
100%
Cast Iron
51%
Scanning Electron Microscopy
42%
Plastic Deformation
39%
Fatigue Crack
28%
Residual Stress
26%
Rolling Contact Fatigue
25%
Glass Fiber
25%
Aluminum
25%
Fullerene
22%
Nucleation
20%
Fatigue of Materials
20%
Film
20%
X-Ray Diffraction
18%
Crack Formation
18%
Thin Films
17%
Electron Microscopy
17%
Finite Element Modeling
15%
Bearing Steel
15%
Fiber-Reinforced Composite
15%
Manganese Steel
15%
Density
14%
Martensite
13%
Crack Initiation
13%
Nodular Iron
12%
Mechanical Strength
12%
Single Crystal
11%
Composite Material
10%
Electron Backscatter Diffraction
10%
Solidification
10%
Structural Polymer
10%
Volume Fraction
10%
Reinforced Plastic
10%
Repair Welding
10%
Diffraction Measurement
9%
Fatigue Damage
9%
Crack Propagation
9%
Protective Coating
8%
Grain Boundary
7%
Transmission Electron Microscopy
7%
Crack Tip
7%
X-Ray Computed Tomography
6%
Carbide
6%
Powder
6%
Polycrystal
6%
Digital Volume Correlation
6%
Pulsed Laser Deposition
6%
Gas Mixture
6%
Microscopy
5%
Thrust Bearing
5%
Engineering
Wind Turbine
75%
Microstructure
39%
Leading Edge
33%
Matrix-Assisted Pulsed Laser Evaporation
31%
Cast Iron
31%
Fullerene
28%
Fatigue Life
23%
Residual Stress
23%
Fatigue Crack
23%
High Resolution
21%
Thin Films
21%
Plastic Deformation
20%
Defects
20%
Rolling Contact Fatigue
20%
Displacement Gradient
18%
Graphite Nodule
18%
Strain Field
16%
Microscale
16%
Bearing Steel
15%
Finite Element Modeling
15%
Composite Fiber
14%
Ray Absorption
12%
Fatigue Damage
12%
Organic Molecule
11%
Laser Fluence
11%
Matrix Material
11%
Composite Material
11%
Manganese Steel
10%
Crack Formation
10%
Grinding (Machining)
10%
Martensite
10%
Elastic Strain
10%
Bulk Material
10%
Axis Angle
10%
Structural Application
10%
Crack Initiation
9%
Micromechanical Model
9%
Surface Morphology
9%
Individual Grain
9%
Plasma Treatment
8%
Wind Power
8%
Base Material
7%
Atomic Number
7%
Pulsed Laser
7%
Porosity
7%
Ultrasonics
7%
In-Plane Shear
7%
Micromechanisms
7%
Blade Turbine
7%
Coating System
7%
Keyphrases
X-ray Computed Tomography (X-CT)
25%
Wind Turbine Blade
20%
Microstructure
15%
Plastic Deformation
11%
Shock
10%
Single Crystal
10%
Wing Rail
10%
Matrix-assisted Pulsed Laser Evaporation (MAPLE)
10%
Leading Edge Erosion
10%
Structural Applications
10%
Three-dimensional X-ray Diffraction
9%
Marker Particles
8%
Micro-mechanism
7%
Three-dimensional X-ray Diffraction Microscopy
7%
Porosity
7%
Scanning Electron Microscopy
7%
Non-destructive Characterization
6%
Unidirectional Fibre-reinforced Composites
6%
Micromechanical Modeling
6%
Fullerene Films
6%
Rolling Contact Fatigue Cracks
6%
Fatigue Life
6%
Lattice Reorientation
6%
X-ray Diffraction Method
6%
Fullerene
6%
3D Characterization
6%
Electron Backscatter Diffraction
6%
High-resolution
5%
International Symposium
5%
Deformation Study
5%
Graphite Nodules
5%
Nodular Cast Iron
5%
Fatigue Crack Path
5%
Digital Volume Correlation
5%
Microstructural Characterization
5%
Reinforced Coatings
5%
Phase Transformation Stress
5%
Microscale Structure
5%
Turbine Blade Repair
5%
Ultrasonic Irradiation
5%
Clay Composite
5%
Particle Stimulated nucleation
5%
Cooling Rate
5%
Unidirectional Composites
5%
Hand Lay-up
5%
Transmission Electron Microscopy
5%
Crack Prediction
5%
Computational Analysis
5%
Lattice Rotation
5%
Dislocation Boundaries
5%