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Process Parameters and Fatigue Properties of High Modulus Composites
Ulrich Andreas Mortensen
Research output
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Book/Report
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Ph.D. thesis
174
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Dive into the research topics of 'Process Parameters and Fatigue Properties of High Modulus Composites'. Together they form a unique fingerprint.
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Engineering
Process Parameter
100%
Fatigue Property
100%
High Modulus
100%
Residual Stress
63%
Fiber
36%
Research
26%
Fatigue Performance
15%
Cure Cycle
15%
Fatigue Crack
15%
Negative Impact
10%
Service Life
10%
Fibre Volume Fraction
10%
Non-Crimp Fabric
10%
Composite Fiber
10%
Backing Layer
10%
Applications
10%
Production Process
10%
Fibre Reinforced Polymer
5%
Durables
5%
Cyclic Loading
5%
Climatic Change
5%
End Product
5%
Conventional Material
5%
Fiber Composite Material
5%
Curing Condition
5%
Transverse Crack
5%
Gas Fuel Manufacture
5%
Load-Carrying Layer
5%
Performance
5%
Design
5%
Elements
5%
Composite
5%
Long Duration
5%
Physics
Independent Variables
100%
Wind Turbine
52%
Fibers
36%
Glass Fiber
26%
Performance
21%
Impact
21%
Fiber Composite
15%
Cycles
15%
Fiber Volume Fraction
10%
Service Life
10%
Utilization
10%
Magnitude
10%
Microscopy
5%
Work
5%
Region
5%
Light
5%
Increasing
5%
Cracks
5%
Composite
5%
Bending
5%
Aerospace Industry
5%
Material Science
Composite Material
100%
Fiber
42%
Material
31%
Glass-Fiber Reinforced Plastic
15%
Mechanical Strength
15%
Volume Fraction
10%
Fabrics
10%
Microscopy
5%
Building Material
5%
Epoxy
5%
Epoxy-Based Composite
5%
Crack
5%
Stiffness
5%
Bending
5%