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Macroscopic behavior prediction of multiferroic composites
Ke Jin,
Jacob Aboudi
*
*
Corresponding author for this work
Engineering General
Xidian University
Research output
:
Contribution to journal
›
Article
›
peer-review
23
Scopus citations
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Keyphrases
Actuation
33%
Behavior Prediction
100%
Bilayer Composite
33%
Continuous Fiber Composites
33%
Current Loading
33%
Deformation Effect
33%
Electric Effect
33%
Electric Polarization
33%
Electro-elastic Fields
33%
Instantaneous Response
33%
Macroscopic Behavior
100%
Magnetic Field
33%
Magneto-electro-elastic
33%
Magnetoelectric
33%
Magnetostriction
33%
Magnetostrictive
66%
Magnetostrictive Composites
33%
Mechanical Deformation
66%
Micromechanical Analysis
66%
Multiferroic Composites
100%
Particulate
33%
Particulate Composites
33%
Piezoelectric Phase
33%
Terfenol-D
66%
Engineering
Actuation
50%
Continuous Fiber
50%
Elastic Field
50%
Electric Polarization
50%
Figure of Merit
50%
Macroscopic Behavior
100%
Magnetic Field
50%
Mechanical Deformation
100%
Micromechanical Analysis
100%
Piezoelectric
100%
Material Science
Electrostriction
33%
Mechanical Deformation
66%
Multiferroic Material
100%
Particulate Composite
33%
Piezoelectricity
66%