Advanced piezoelectric materials : science and technology / edited by Kenji Uchino.
Material type:
TextSeries: Woodhead Publishing series in electronic and optical materialsPublisher: Duxford, United Kingdom : Woodhead Publishing is an imprint of Elsevier, 2017Edition: Second editionDescription: 1 online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9780081012550; 0081012551Subject(s): Piezoelectric materials | SCIENCE -- Physics -- Electricity | SCIENCE -- Physics -- Electromagnetism | Piezoelectric materialsGenre/Form: Electronic books.DDC classification: 620.1/15 LOC classification: TK7872.P54Online resources: ScienceDirect | Item type | Current library | Call number | Status | Date due | Barcode |
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Ebooks
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Mysore University Main Library | Not for loan | EBKELV993 |
Includes index.
Online resource; title from PDF title page (ScienceDirect, viewed June 29, 2017).
Front Cover; Advanced Piezoelectric Materials: Science and Technology; Copyright; Contents; Contributors; Preface; Acknowledgments; Chapter 1: The Development of Piezoelectric Materials and the New Perspective; 1.1. The History of Piezoelectrics; 1.1.1. The Dawn of Piezoelectrics; 1.1.2. World War I-Underwater Acoustic Devices With Quartz and Rochelle Salt; 1.1.3. World War II-Discovery of Barium Titanate; 1.1.4. Discovery of PZT; 1.1.4.1. PZT; 1.1.4.2. Clevite Corporation; 1.1.4.3. Murata Manufacturing Company; 1.1.4.4. Ternary System; 1.1.5. Lithium Niobate/Tantalate.
1.1.6. Relaxor Ferroelectrics-Ceramics and Single Crystals1.1.7. Polyvinylidene Difluoride; 1.1.8. Pb-Free Piezoelectrics; 1.1.9. Composites; 1.1.9.1. Composite Effects; 1.1.9.2. Magnetoelectric Composites; 1.1.9.3. Piezoelectric Dampers; 1.1.10. Other Piezoelectric-Related Materials; 1.1.10.1. Photostrictive Materials; 1.1.10.2. Monomorphs; 1.2. Piezoelectric Materials-Present Status; 1.2.1. Piezoelectric Figures of Merit; 1.2.1.1. Piezoelectric Strain Constant d; 1.2.1.2. Piezoelectric Voltage Constant g; 1.2.1.3. Electromechanical Coupling Factor k; 1.2.1.4. Mechanical Quality Factor QM.
1.2.1.5. Acoustic Impedance Z1.2.2. Piezoelectric Resonance20; 1.2.2.1. The Piezoelectric Constitutive Equations; 1.2.2.2. Electromechanical Coupling Factor; 1.2.2.3. Longitudinal Vibration Mode; 1.2.3. Overview of Piezoelectric Materials49; 1.2.3.1. Single Crystals; 1.2.3.2. Polycrystalline Materials; 1.2.3.3. Relaxor Ferroelectrics; 1.2.3.4. Polymers; 1.2.3.5. Composites; 1.2.4. Thin-Films; 1.2.4.1. Thin Film Preparation Technique; 1.2.4.2. MEMS Application; 1.2.4.3. Constraints in Thin/Thick Films; 1.3. Piezoelectric Devices-Brief Review of Applications.
1.3.1. Pressure Sensors/Accelerometers/Gyroscopes1.3.2. Piezoelectric Vibrators/Ultrasonic Transducers; 1.3.2.1. Piezoelectric Vibrators; 1.3.2.2. Ultrasonic Transducers; 1.3.2.3. Resonators/Filters; 1.3.3. SAW Devices; 1.3.4. Micromass Sensor; 1.3.4.1. Biosensor; 1.3.4.2. Viscosity Sensor; 1.3.5. Piezoelectric Transformers; 1.3.6. Piezoelectric Actuators; 1.3.6.1. Actuator Designs; 1.3.6.2. Drive/Control Techniques; 1.3.6.3. Servo Displacement Transducers; 1.3.6.4. Pulse Drive Motors; 1.3.7. Ultrasonic Motors; 1.3.7.1. Classification and Principles of USMs; 1.3.7.2. Standing Wave-Type Motors.
1.3.7.3. Propagating Wave-Type Motors1.3.7.4. Smooth Impact Drive Mechanism; 1.3.8. Piezoelectric Energy Harvesting; 1.3.8.1. Piezoelectric Passive Damping to Energy Harvesting; 1.3.8.2. High Energy Harvesting (~W); 1.3.8.3. Low-Energy Harvesting (~mW); 1.4. Future Perspectives of Piezoelectrics; 1.4.1. Performance to Reliability; 1.4.1.1. Pb-Free Piezoelectrics; 1.4.1.2. Biodegradable Polymer; 1.4.1.3. Low-Loss Piezoelectrics; 1.4.2. Hard to Soft; 1.4.2.1. Elastomer Actuators; 1.4.2.2. Electrostrictive Polymers; 1.4.2.3. 1:3 PZT Composites; 1.4.2.4. Large Strain Ceramics.
Includes bibliographical references and index.
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