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Lead-free piezoelectric ceramics: Alternatives for PZT?
Thomas R. Shrout, Shujun J. Zhang
Materials Research Institute (MRI)
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peer-review
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Keyphrases
(K,Na)NbO3
50%
Antiferroelectric
50%
Barium Titanate
50%
Curie Temperature
50%
Dielectric Properties
50%
Domain State
50%
Domain Wall Mobility
50%
Electric Field-induced Strain
50%
Enhanced Properties
50%
Extrinsic Contribution
50%
Ferroelectric Domains
50%
Ferroelectric Perovskites
50%
Field Polarization
50%
General Applications
50%
Hard PZT
50%
High Field
50%
Intrinsic Nature
50%
Lead-based
50%
Lead-free Materials
50%
Lead-free piezoelectric
50%
Lead-free piezoelectric Ceramics
100%
Morphotropic Phase Boundary
100%
Orthorhombic
50%
Pb(Zr,Ti)O3
50%
Piezoelectric Properties
50%
Polarizability
50%
Polarization Measurement
50%
Polymorphic Transition
50%
Scientific Impact
50%
Sensor Transducer
50%
Sensor-actuators
50%
Strain Measurement
50%
Temperature Effect
50%
Ternary System
50%
Tetragonal
50%
Thermal Cycling
50%
TiO3
50%
Ultrasound Transducer
50%
Material Science
Actuator
33%
Curie Temperature
33%
Dielectric Property
33%
Domain Wall
33%
Ferroelectric Material
100%
Lead-Free Piezoelectric Ceramics
100%
Piezoelectric Property
33%
Piezoelectricity
66%
Thermal Cycling
33%
Titanium Oxide
33%
Engineering
Dielectrics
25%
Domain Wall
25%
Extrinsic Contribution
25%
Morphotropic Phase Boundary
50%
Piezoelectric
100%
Polarizability
25%
Polarization Field
25%
Strain Field
25%
Ternary System
25%
Transducer
25%