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Mechanics and electrochemistry of ionic polymer metal composites
Youngsu Cha
, Maurizio Porfiri
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Corresponding author for this work
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peer-review
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Keyphrases
Ionic Polymer-metal Composite
100%
Actuation
30%
Counterion
20%
Ion Mixing
20%
Through-thickness
10%
Osmotic Pressure
10%
Kinematics
10%
Modeling Framework
10%
Composite Sensor
10%
Ionomer
10%
Electric Potential
10%
Electric Polarization
10%
Large Deformation
10%
Constitutive Behavior
10%
Plane Bending
10%
Helmholtz Free Energy
10%
Voltage Range
10%
Nonlinear Phenomena
10%
Quasi-static
10%
Maxwell Stress
10%
Different Voltage Levels
10%
Mechanical Deformation
10%
Mechanical Stretching
10%
Noble Metal Electrodes
10%
Semi-analytical Solution
10%
Three-dimensional Framework
10%
Free Energy Density
10%
Composite Sensing
10%
Ionomer Membrane
10%
Composite Actuator
10%
Electroactive Materials
10%
Static Deformation
10%
Mixing Energy
10%
Matched Asymptotic Expansions
10%
Poisson-Nernst-Planck System
10%
Ion Polarization
10%
Polarization Energy
10%
Chemical Engineering
Precious Metal
100%
Osmosis
100%
Ionome
100%
Free Energy
100%
Material Science
Energy Density
100%
Actuator
100%
Large Deformation
100%
Mechanical Deformation
100%
Engineering
Ionic Polymer Metal Composite
100%
Actuation
30%
Experimental Observation
10%
Ionomer
10%
Structural Model
10%
Plane Bending
10%
Large Deformation
10%
Electric Polarization
10%
Maxwell Stress
10%
Mechanical Deformation
10%
Asymptotic Expansion
10%
Electric Potential
10%
Helmholtz Free Energy
10%
Nonlinear Phenomenon
10%
Polarization Energy
10%
Thickness Coordinate
10%
Flux Density
10%
Physics
Electrochemistry
100%