Keyphrases
Piezoelectric Effect
100%
Active Fiber Composite
100%
Non-uniform Electric Field
100%
Young's Modulus
18%
Polymer Matrix
18%
Electromechanical Behavior
18%
Loading Rate
18%
PZT Fibers
18%
Electrode Gap
18%
Interdigitated Electrodes
18%
Mechanical Properties
9%
Piezoelectric Coefficient
9%
Stress Field
9%
Dielectric Behavior
9%
Mechanical Behavior
9%
Material Properties
9%
Elevated Temperature
9%
Gap Distance
9%
Knowledge Gaps
9%
Nonlinear Behavior
9%
Lead Zirconate Titanate
9%
Non-uniformity
9%
Temperature Rise
9%
Electric Potential
9%
Different Boundaries
9%
Applied Electric Field
9%
Epoxy Matrix
9%
Tensile Strength
9%
Nonlinear Response
9%
Potential Field
9%
Property Change
9%
Composite Model
9%
Partitioning Method
9%
Viscoelastic Behavior
9%
Piezoelectric Fiber
9%
ABAQUS
9%
Fiber Size
9%
Ultimate Strain
9%
Dielectric Contrast
9%
Tensile Test at Room Temperature
9%
Property Boundary
9%
Piezoelectric Performance
9%
Effective Properties
9%
Viscoelastic Characteristics
9%
Ruggedness
9%
High Applied Field
9%
Electrode Width
9%
Matrix Electrodes
9%
Actuation Properties
9%
Electro-thermo-mechanical
9%
Engineering
Piezoelectric
100%
Active Fiber
100%
Dielectrics
18%
Young's Modulus
18%
Electromechanical Behavior
18%
Polymer Matrix
18%
Loading Rate
18%
Room Temperature
9%
Stress Field
9%
Piezoelectric Coefficient
9%
Epoxy Matrix
9%
Parametric Study
9%
Actuation
9%
Titanate
9%
Lead Zirconate
9%
Applied Field
9%
Temperature Increase
9%
Electric Potential
9%
Tensile Test
9%
Elevated Temperature
9%
Applied Electric Field
9%
Ultimate Tensile Strength
9%
Nonlinear Response
9%
Nonlinear Behavior
9%
Nonuniformity
9%
Fibre Size
9%
Effective Property
9%
Electric Stress
9%
Material Science
Piezoelectricity
100%
Composite Material
100%
Young's Modulus
18%
Polymer Matrix
18%
Mechanical Property
9%
Epoxy
9%
Lead Zirconate Titanate
9%
Ultimate Tensile Strength
9%
Stress Field
9%
Viscoelastic Behavior
9%
Materials Property
9%