Keyphrases
Modeling Approach
100%
High-fidelity Generalized Method of Cells
100%
Fiber-reinforced Composites
100%
Piezoresistive Fibers
100%
Electrical Potential
100%
Micromechanics
100%
Coupled Nonlinearity
100%
Mechanical Deformation
66%
Micromodel
66%
Periodic Composite
66%
Spatial Distribution
33%
Carbon Nanotubes
33%
Current Density
33%
Polymer Matrix
33%
Finite Element Method
33%
Sub-volume
33%
Electrical Field
33%
Stress-strain
33%
Carbon Nanoparticles
33%
Electrical Modeling
33%
Vector Potential
33%
Piezoresistivity
33%
Electrical Resistivity Changes
33%
Charge Conservation
33%
Governing Equation
33%
Doubly Periodic
33%
Electrical Current
33%
Electrical Effect
33%
Sensor Technology
33%
Quadratic Polynomial
33%
Local Displacement
33%
Micromechanical Analysis
33%
Electromechanical Behavior
33%
Mechanical Effect
33%
Conductive Phase
33%
Nonlinear Coupled
33%
Piezoresistive Properties
33%
Nondestructive Evaluation
33%
Displacement Vector
33%
Electrical Conductivity
33%
Piezoresistive Composite
33%
Effective Electrical Properties
33%
One-way Coupling
33%
Spatial Field Distribution
33%
Matrix Components
33%
Nonlinear Solution
33%
Heterogeneous Media
33%
Modeling Framework
33%
Engineering
Fiber-Reinforced Composite
100%
Generalized Method
100%
Method of Cell
100%
Electrical Potential
100%
Conductive
66%
Mechanical Deformation
66%
Finite Element Analysis
33%
Carbon Nanotube
33%
Electric Field
33%
Polymeric Matrix
33%
Matrix Constituent
33%
Electrical Conductivity
33%
Spatial Distribution
33%
Non Destructive Evaluation
33%
Nanoparticle
33%
Micromechanical Analysis
33%
Electromechanical Behavior
33%
Electrical Effect
33%
Displacement Vector
33%
Field Distribution
33%
Material Science
Composite Material
100%
Fiber-Reinforced Composite
100%
Mechanical Deformation
40%
Density
20%
Electrical Resistivity
20%
Carbon Nanotube
20%
Finite Element Method
20%
Non-Destructive Testing
20%
Electrical Conductivity
20%