Publication | Closed Access
Revealing the real high temperature performance and depolarization characteristics of piezoelectric ceramics by combined <i>in situ</i> techniques
88
Citations
40
References
2018
Year
Real Depolarization TemperatureEngineeringFunctional CeramicPolar EnvironmentsCeramic PowdersElectrical PropertiesPiezoelectric CeramicsThermophysicsThermodynamicsPiezoelectric MaterialThermal CycleDepolarization CharacteristicsThermoanalytical MethodMaterials SciencePolarization VariationPhysicsPiezoelectric MaterialsPiezoelectricityPolarization ImagingHigh Temperature MaterialsApplied PhysicsCondensed Matter PhysicsCeramics MaterialsThermophysical Property
Polarization variation in a thermal cycle and <italic>in situ</italic> HT <italic>d</italic><sub>33</sub> revealed real depolarization temperature and distinct <italic>d</italic><sub>33</sub> recovery.
| Year | Citations | |
|---|---|---|
Page 1
Page 1