Keyphrases
Fiber-matrix Interface
100%
Single Fiber Composite
100%
Stress Concentration
100%
Interface Layer
100%
Energy Stress
100%
Ultrasonic Energy Transfer
100%
Elastic Matrix
100%
Frequency Dependence
50%
Polymeric Materials
50%
Numerical Results
50%
Energy Transfer
50%
Elastic Waves
50%
Ultrasonic Wave
50%
Ultrasonic Experiment
50%
Hysteresis
50%
Mechanical Characteristics
50%
Single Fiber
50%
Frequency Spectrum
50%
Compression Wave
50%
Wave Absorption
50%
Fiber Matrix
50%
Time Harmonics
50%
Fiber-reinforced Composites
50%
Shear Wave
50%
Total Fiber
50%
Interphase Thickness
50%
Interphase Material
50%
Elastic Wave Scattering
50%
Matrix Energy
50%
Complex Modulus
50%
Energy Dynamics
50%
Cylindrical Scatterers
50%
Bond Thickness
50%
Eigenfunction Expansion
50%
Acousto-ultrasonics
50%
Eigenfunction Method
50%
Havriliak-Negami Model
50%
Dynamic Stress Intensity Factor
50%
Engineering
Energy Engineering
100%
Ultrasonics
100%
Single Fibre
100%
Stress Concentration
100%
Interface Layer
100%
Elastic Wave
66%
Elastic Matrix
66%
Scatterer
33%
Shear Wave
33%
Harmonics
33%
Good Agreement
33%
Limiting Case
33%
Frequency Spectrum
33%
Classical Method
33%
Fiber-Reinforced Composite
33%
Dynamic Stress
33%
Reinforced Composite Material
33%
Havriliak-Negami Model
33%
Compressional Wave
33%
Eigenfunction Expansion
33%
Complex Modulus
33%
Material Science
Stress Concentration
100%
Polymer
50%
Mechanical Property
50%
Fiber Reinforced Material
50%