Engineering
Crack Growth Behavior
97%
Steel
90%
Offshore Wind Turbines
78%
Wind
74%
Stainless Steel
66%
Fatigue Crack Growth
61%
Creep
53%
Weldment
50%
Corrosion Fatigue
46%
Creep Crack Growth
46%
Welds
40%
Additive Manufacturing
39%
Prediction
39%
Residual Stress
35%
Structural Integrity
29%
Crack Growth
28%
Support Structure
28%
Structural Steel
27%
Applications
26%
Environment
25%
Fatigue Life
25%
Fracture Toughness
24%
Crack Growth Rate
24%
Mild Steel
23%
Evaluation
23%
Models
23%
Bolted Connection
22%
Testing
20%
Foundations
20%
Fatigue Behavior
20%
Properties
20%
Fracture Mechanics
20%
Crack
19%
Fatigue Life Prediction
19%
Bolts
19%
Surfaces
18%
Residual Stress Distribution
17%
Monopile Foundation
17%
Crack Initiation
16%
High Temperature
15%
Prestrain
15%
Fatigue Design
15%
Fabrication
14%
Pitting (Corrosion)
14%
Test Result
14%
Correlation
14%
Method in Fracture Mechanics
14%
Finite Element Modeling
13%
Additive Manufacturing Technology
13%
Shot Peening
13%
Material Science
Spring Steel
81%
Fatigue Crack Growth
46%
Material
44%
Stainless Steel
43%
Residual Stress
43%
Three Dimensional Printing
34%
Temperature
34%
Creep
34%
Crack
30%
Growth Rate
20%
Low Carbon Steel
19%
Fracture Mechanics
18%
Creep Crack Growth
18%
Finite Element Methods
18%
Microstructure
14%
Strain
14%
Plastics
14%
Crack Growth
13%
Corrosion Fatigue
12%
Phased Array Ultrasonics
12%
Fatigue of Materials
11%
Fatigue Behavior
11%
Laser
11%
Ultrasonic Testing
10%
Ductility
9%
Mechanical Strength
8%
Correlation
8%
Fracture Toughness
8%
Mechanical Testing
8%
Toughness
8%
Shot Peening
8%
Stress Measurement
8%
Surface Treatment
7%
Crack Propagation
7%
Crack Initiation
7%
Fatigue Crack
6%
Welded Joint
6%
Stress Field
6%
Fracture Behavior
6%
Ferrite
5%
Neutron Diffraction
5%
Diffraction Measurement
5%
Air
5%
Pressure Vessel
5%
Carbon Steel
5%
Grain Size
5%
Physics
Steel
100%
Fatigue Crack Growth
25%
Creep
24%
Wind Turbine
23%
Crack Growth
21%
Creep-Fatigue
21%
Corrosion Fatigue
16%
Strain
16%
Creep Crack Growth
15%
Evaluation
14%
Ultrasonics
12%
Independent Variables
11%
Geometry
10%
Standard
10%
Model
10%
Assessments
10%
Arrays
9%
High Temperature
9%
Neutron Diffraction
9%
Cracks
9%
Deformation
8%
Fracture Mechanics
8%
Frequencies
8%
Parameter
7%
Finite Element Methods
7%
Fracture Strength
7%
Temperature
7%
Ductility
7%
Cracking (Fracture)
6%
Terms
6%
Technology
6%
Ratios
5%
Growth Rate
5%
High Strength
5%
Failure
5%
Heat Affected Zone
5%
Specimen Geometry
5%
Toughness
5%
Region
5%
Peening
5%
