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Electroelasticity of copolymer networks
Idan Z. Friedberg,
Gal deBotton
Department of Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
3
Scopus citations
Overview
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Keyphrases
Copolymer
100%
Electroelasticity
100%
Copolymer Network
100%
Two-species
66%
Coupled Response
66%
Energy Density
33%
Dipole
33%
Mechanical Field
33%
Electric Dipole
33%
Statistical Mechanics
33%
Electroactive
33%
Mechanics-based
33%
Molar Fraction
33%
Stretch Ratio
33%
Closed-form Expression
33%
Density Function
33%
Polymer Network
33%
Actuation
33%
Electrical Field
33%
Multispecies
33%
Contour Length
33%
Affine Deformation
33%
Orientation Distribution Function
33%
Chain End
33%
Electro-elastic
33%
Network Response
33%
Dipolar Moment
33%
Langevin Function
33%
Relative Dielectric Constant
33%
Engineering
Monomer
100%
Dielectrics
25%
Actuation
25%
Gibbs Free Energy
25%
Energy Density
25%
Molar Fraction
25%
Stretch Ratio
25%
Closed Form Expression
25%
Network Polymer
25%
Electrical Field
25%
Electric Dipole
25%
Chain End
25%
Mechanical Field
25%
Network Response
25%
Physics
Copolymer
100%
Flux Density
20%
Contours
20%
Statistical Mechanics
20%
Permittivity
20%
Material Science
Copolymer
100%
Permittivity
20%
Energy Density
20%
Polymer Network
20%