Keyphrases
Electrostriction
100%
Network Model
100%
Dipole
100%
Electroactive Polymer
100%
Microstructure Analysis
100%
Microstructure
33%
Probability Distribution Function
33%
Representative Volume Element
33%
Microstructural
22%
Low Hysteresis
22%
Spatial Location
22%
Semi-crystalline
22%
Crystalline Domain
22%
Amorphous Phase
22%
Hyperelastic
22%
Averaging Scheme
22%
Electromechanical Properties
11%
Dielectric Behavior
11%
High Linearity
11%
Electrostrictive Behavior
11%
Function-based
11%
Characteristic Behavior
11%
External Electric Field
11%
Electrostrictive Material
11%
Relaxor
11%
Relaxor Ferroelectric Polymers
11%
Large Strain
11%
Dipole-dipole Interaction
11%
Electromechanical Response
11%
Polyvinylidene Fluoride
11%
Interaction Energy
11%
Electric Dipole
11%
Continuum Description
11%
Elastic Energy
11%
Hysteresis Nonlinearity
11%
Free Energy
11%
Crystalline Region
11%
Large Deformation
11%
Electromechanical Strain
11%
Chain Network
11%
Material Microstructure
11%
Free Energy Functional
11%
Nonlinear Dielectric
11%
Electrostatic Force
11%
Electrostatic Energy
11%
Spatial Arrangement
11%
Microstructure Effect
11%
Spatial Orientation
11%
Elastic Component
11%
Response Data
11%
Helmholtz Free Energy
11%
Random Model
11%
Hyperelastic Properties
11%
Ellipsoidal Model
11%
Engineering
Network Model
100%
Probability Distribution Function
100%
Representative Volume Element
100%
Electro Active Polymers
100%
Spatial Location
66%
Amorphous Phase
66%
Simulation Result
33%
Dielectrics
33%
Electromechanical Property
33%
Good Agreement
33%
Model Chain
33%
Relaxor Ferroelectrics
33%
Ferroelectric Polymers
33%
Domain Size
33%
Interaction Energy
33%
Electric Dipole
33%
Elastic Energy
33%
Gateway
33%
Large Deformation
33%
External Electric Field
33%
Crystalline Region
33%
Mechanic Model
33%
Structural Mechanics
33%
Helmholtz Free Energy
33%
Material Science
Electrostriction
100%
Ferroelectric Material
50%
Dipole-Dipole Interaction
50%
Large Deformation
50%