INIS
damage
100%
crack growth
100%
metals
100%
fibers
100%
cracks
100%
fatigue
36%
loading
36%
symmetry
31%
prediction
18%
tolerance
18%
layers
13%
shape
13%
growth
13%
stress intensity factors
9%
increasing
9%
design
9%
removal
9%
bending
9%
configuration
9%
data
9%
length
9%
failures
4%
width
4%
surges
4%
risks
4%
reduction
4%
acceleration
4%
regulations
4%
interactions
4%
fasteners
4%
comparative evaluations
4%
crack propagation
4%
correlations
4%
holes
4%
bypasses
4%
tools
4%
plasticity
4%
size
4%
panels
4%
experimental data
4%
modeling
4%
stiffness
4%
notches
4%
Engineering
Fibre Metal Laminate
100%
Crack Growth Behavior
100%
Multiple-Site Damage
100%
Models
61%
Mechanisms
33%
Joints (Structural Components)
27%
Crack Growth Rate
27%
Fatigue Crack Growth
22%
Multiple Crack
16%
Single Crack
16%
Delamination
16%
Damage Growth
11%
Stress-Intensity Factor
11%
Widespread Fatigue Damage
11%
Crack Length
11%
Test Data
11%
Metal Layer
11%
Stiffness Reduction
5%
Good Correlation
5%
Obtains
5%
Mm Crack
5%
Loading Case
5%
Crack Tip
5%
Lead Crack
5%
Fatigue Life
5%
Applicability
5%
Critical Damage
5%
Structural Design
5%
Crack Path
5%
Major Portion
5%
Predicted Result
5%
Tensiles
5%
Failure (Mechanical)
5%
Open Hole
5%
Crack Configuration
5%
Structural Stiffness
5%
Measured Crack
5%
Design
5%
Superposition
5%
Crack Flank
5%
Airworthiness
5%
Good Prediction
5%
Damage Behavior
5%
Limit of Validity
5%
Experimental Work
5%
Bending Stress
5%
Crack Propagation
5%
Point Load
5%
Material Science
Crack Growth
100%
Crack
100%
Metal
100%
Fiber
100%
Damage Tolerance
19%
Fatigue Damage
9%
Strip Metal
9%
Stress Intensity Factor
9%
Bending
9%
Plasticity
4%
Fastener
4%
Fatigue of Materials
4%
Design Philosophy
4%
Stiffness
4%