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Fatigue behavior of impacted carbon fiber reinforced plastics
D. Biagini
Group Pascoe
Research output
:
Thesis
›
Dissertation (TU Delft)
43
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Research output
(3)
Datasets
(2)
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Dive into the research topics of 'Fatigue behavior of impacted carbon fiber reinforced plastics'. Together they form a unique fingerprint.
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Keyphrases
Carbon Fiber Reinforced Plastic
100%
Fatigue Behavior
100%
Compression after Impact
100%
Delamination Growth
100%
Impact Fatigue
100%
Damage Mode
66%
Carbon Fiber Reinforced Polymer
66%
Further Analysis
33%
Loading Conditions
33%
Complex Damage
33%
Structural Integrity
33%
Damage Study
33%
Damage Pattern
33%
Damage Fatigue
33%
Convolutional Neural Network
33%
Impact Damage
33%
Damage Area
33%
Aircraft Structure
33%
Plateau Phase
33%
Fatigue Test
33%
Acoustic Emission
33%
Numerical Modeling Method
33%
Load Level
33%
Metal-carbon
33%
Delamination Fracture
33%
Ultrasound Image
33%
Fiber Fracture
33%
Impact Event
33%
Growth Pattern
33%
Digital Image Correlation Technique
33%
Initial Damage
33%
Engineering
Carbon-Fiber-Reinforced Plastic
100%
Fatigue Behavior
100%
Delamination Growth
100%
Impact Fatigue
100%
Aircraft
66%
Carbon Fibre Reinforced Polymer
66%
Damage Mode
66%
Load Condition
33%
Damage Area
33%
Fibre Fracture
33%
Structural Integrity
33%
Convolutional Neural Network
33%
Plateau Phase
33%
Impact Event
33%
Load Level
33%
Mechanisms
33%
Impact Damage
33%
Progression
33%
Initial Damage
33%
Aircraft Structure
33%
Dissipate Energy
33%
Acoustic Emission
33%
Delamination
33%
Numerical Modeling
33%
Mechanical Fatigue Test
33%
Actuator
33%
Digital Image Correlation Technique
33%
INIS
fatigue
100%
carbon fibers
100%
reinforced plastics
100%
damage
83%
compression
50%
growth
50%
aircraft
50%
polymers
33%
emission
16%
levels
16%
energy
16%
management
16%
metals
16%
neural networks
16%
acoustics
16%
correlations
16%
images
16%
cones
16%
fibers
16%
modeling
16%
fractures
16%
Material Science
Fatigue Behavior
100%
Delamination
100%
Carbon Fiber Reinforced Plastics
100%
Aircraft
75%
Carbon Fiber
50%
Reinforced Plastic
50%
Metal
25%
Fatigue Damage
25%