PiezoelectricityC. Rosen, B.V. Hiremath, R. Newnham This collection of 32 major review papers provides a complete understanding of the physics of piezoelectricity. With a thorough overview of applications and a major section exploring measurements and standards, this volume gives a systematic derivation of piezoelectric coefficients and equations of state for coupling mechanical, electrical, and thermal fields. A useful graduate text for design engineers, materials scientists, chemists, metallurgists, and condensed matter physicists. |
Contents
General | 1 |
FERROELECTRICS | 2 |
Materials | 32 |
Crystals for quartz resonators | 35 |
Phonon focusing in piezoelectric crystals Quartz and lithium niobate | 77 |
PYROELECTRIC DIELECTRIC AND THERMAL PROPERTIES OF TGS DTGS AND TGFB | 89 |
Theory of the Transition in KH2PO4 | 98 |
Theory of Barium TitanatePart I | 116 |
Devices and Applications | 279 |
Dielectric Piezoelectric and Ferroelectric Components | 282 |
PIEZOELECTRIC DEVICES IN JAPAN | 287 |
Pyroelectric Detectors and Materials | 308 |
Recent Developments in Ferroelectrics for Infrared Detectors | 321 |
Electrostrictive Actuators Materials and Applications | 329 |
Longitudinal Mode Multilayer Piezoceramic Actuators | 335 |
INK JET PRINTING | 337 |
Theory of Barium TitanatePart II | 140 |
Elastic Piezoelectric and Dielectric Constants of Polarized Barium Titanate Ceramics and Some Applications of the Piezoelectric Equations | 155 |
Properties of Piezoelectric Ceramics in the SolidSolution Series Lead TitanateLead ZirconateLead Oxide Tin Oxide and Lead TitanateLead Hafnate | 159 |
Piezoelectric Properties of Modified PbTiO Ceramics | 175 |
Ferroelectric Polymers | 182 |
Review of transducer applications of polyvinylidene fluoride | 189 |
COMPOSITE PIEZOELECTRIC SENSORS | 195 |
GrainOriented GlassCeramics for Piezoelectric Devices | 205 |
Measurements and Standards | 209 |
Acoustic microscopy a tool for nondestructive evaluation of ceramics | 219 |
IEEE Standard on Piezoelectricity | 225 |
Introduction to Underwater Acoustics | 345 |
Ultrasonic wave motor the first actuator incorporating ceramics technology | 379 |
THE APPLICATION OF PIEZOELECTRIC CERAMICS IN DIAGNOSTIC ULTRASOUND TRANSDUCERS | 388 |
New transducers for highresolution ultrasonic testing | 402 |
Crystal Ceramic and Mechanical Filters in Japan | 408 |
Some Recent Advances in Integrated Crystal Filters | 436 |
NEW DESIGN OF VERY HIGH FREQUENCY SOURCES | 447 |
THE APPLICATION OF PIEZOELECTRICITY TO WATCHES | 453 |
Practical Surface Acoustic Wave Devices | 467 |
Common terms and phrases
acoustic antiresonance applications axes axis bandwidth barium titanate BaTiO3 capacitance capacitor composites coupling coefficient coupling factor Curie point Curie temperature delay lines density devices dielectric constant dipole direction DTGS effect elastic electric field electrode electromechanical coupling energy equations ferroelectric Figure function given glass-ceramics hydrogen hydrophone IEEE Trans linear lithium lithium niobate measured mechanical filters method mode monolithic niobate noise obtained parallel parameters PbTiO3 perovskite phase phonon Phys piezo piezoelectric ceramics piezoelectric constants plane plate Poisson's ratio polarization poling polymer pressure Proc properties pulse PVDF PVF2 pyroelectric detectors quartz quartz resonators quency radial ratio resonant frequency response sample Section shown in Fig shows signal specific heat specimens strain stress structure surface wave symmetry Symp Table technique temperature coefficients tetragonal TGFB theory thermal thickness tion transducer transition ultrasonic Ultrasonic Motor ultrasound values velocity vibration voltage zero