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Multiscale modeling of strain rate effects in FRP laminated composites
Y. Liu
Applied Mechanics
Research output
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Thesis
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Dissertation (TU Delft)
34
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Dive into the research topics of 'Multiscale modeling of strain rate effects in FRP laminated composites'. Together they form a unique fingerprint.
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Engineering
Composite
100%
Multiscale Modeling
100%
Mechanisms
100%
Inertia Effect
50%
Material Behavior
50%
Fracture Failure
25%
Fibre-Reinforced Polymer Composite
25%
Microstructure
25%
Impact Energy
25%
Significant Change
25%
Mechanical Properties
25%
Macroscale
25%
High Loading
25%
Composite Material
25%
Characteristics
25%
Give Rise
25%
Failure (Mechanical)
25%
Impact Scenario
25%
Aircraft Structure
25%
Experiments
25%
Fiber
25%
Device Structure
25%
Laminate
25%
Energy Dissipation
25%
Energy Absorption
25%
Fracture Mechanism
25%
Young's Modulus
25%
Multiscale
25%
Automotives
25%
Microscale
25%
Material Science
Laminated Composite
100%
Strain Rate Effect
100%
Reinforced Plastic
100%
Polymer Composite
100%
Mechanical Failure
50%
Impact Loads
50%
Microstructure
50%
Composite Material
50%
Mechanical Deformation
50%
Composite Laminate
50%
Elastic Moduli
50%
Devices
50%
Fiber
50%
Fracture Toughness
50%
Aircraft
50%
INIS
failures
100%
strain rate
100%
modeling
100%
inertia
40%
deformation
40%
polymers
40%
fibers
40%
dynamics
20%
energy absorption
20%
composite materials
20%
energy
20%
matrices
20%
microstructure
20%
information
20%
energy dissipation
20%
devices
20%
aircraft
20%
loading
20%
strength (fracture)
20%
length
20%
mechanical properties
20%
fractures
20%
loading rate
20%