Engineering & Materials Science
Fatigue of materials
100%
Fatigue crack propagation
76%
Fatigue damage
61%
Crack propagation
48%
Uncertainty
41%
Aircraft
34%
Physics
33%
Cracks
30%
Composite materials
23%
Crack tips
22%
Corrosion
18%
Trajectories
18%
Crack closure
17%
Delamination
17%
Reliability analysis
16%
Random variables
15%
Steel
15%
Fatigue testing
14%
Information fusion
14%
Bayesian networks
14%
Microstructure
13%
Testing
13%
Reinforcement learning
12%
Entropy
12%
Defects
11%
Laminates
11%
Imaging techniques
11%
Aging of materials
11%
Creep
10%
Surface waves
10%
Degradation
10%
Railroads
10%
Suspension bridges
10%
Neural networks
10%
Growth kinetics
10%
Air
10%
Aluminum alloys
10%
Computational efficiency
9%
Stress intensity factors
9%
Finite element method
9%
Damage detection
9%
Plasticity
8%
Wheels
8%
Optical microscopy
8%
Plastics
8%
Concrete bridges
8%
Sensors
8%
Pipe
7%
Airports
7%
Beams and girders
7%
Mathematics
Fatigue Life Prediction
22%
Fatigue
19%
Multiaxial Fatigue
15%
Fatigue Crack Growth
15%
Fatigue Damage
13%
Particle Method
13%
Life Prediction
12%
Crack Growth
12%
Model
10%
Methodology
9%
Growth Analysis
8%
Physics
8%
Fatigue Life
8%
Damage Accumulation
7%
Fatigue Crack
7%
Crack
6%
Microstructure
6%
High Cycle Fatigue
6%
Damage
6%
Crack Closure
6%
Crack Tip
6%
Simulation
6%
Uncertainty
5%
Data-driven
5%
Aircraft
5%
Scanning Electron Microscope
5%
S-N Curve
5%
Prediction Model
5%
Cyclic Loading
5%