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Predictions of static displacements in 1-3 piezocomposites
Li Li
,
N. R. Sottos
Center for Advanced Study
Materials Science and Engineering
Mechanical Science and Engineering
Aerospace Engineering
Materials Research Lab
Beckman Institute for Advanced Science and Technology
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Keyphrases
1-3 piezocomposite
100%
Analytical Model
50%
Ceramic Rod
100%
Compliant Interlayer
50%
Composite Cylinder Model
50%
Composite Materials
50%
Displacement Behavior
50%
High Sensitivity
50%
Longitudinal Direction
50%
Longitudinal Displacement
50%
Low Mechanical Loss
50%
Micromechanical Behavior
50%
Out-of-plane Displacement
50%
Overall Sensitivity
50%
Piezocomposite
100%
Piezoelectric Materials
50%
Piezoelectric Rod
50%
Piezoelectric Voltage Coefficient
50%
Polymer Coating
50%
Static Displacement
100%
Thin Interlayer
50%
Transverse Direction
50%
Transversely Isotropic
50%
Material Science
Composite Material
100%
Composite Material
50%
Piezoelectric Material
50%
Piezoelectricity
100%
Polymer Coating
50%
Engineering
Analytical Model
20%
Composite Cylinder
20%
Composite Material
20%
Constituent Material
20%
Interlayer
60%
Mechanical Loss
20%
Piezoelectric
20%
Piezoelectric Material
20%
Piezoelectric Voltage Coefficient
20%
Rod
100%