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Piezoelectric actuators / Joshua E. Segel, editor.

Contributor(s): Material type: TextTextSeries: Electrical engineering developments seriesPublisher: New York : Nova Science Publishers, c2011Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781626183209
  • 1626183201
Subject(s): Genre/Form: Additional physical formats: Print version:: Piezoelectric actuatorsDDC classification:
  • 621 22
LOC classification:
  • TJ223.A25
Online resources:
Contents:
PIEZOELECTRIC ACTUATORS; PIEZOELECTRIC ACTUATORS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapter 1: Recent Progress in Thick-Film Piezoelectric Actuators Prepared by Screen-Printing; Abstract; 1. Introduction; 2. Piezoceramic Thick-Film Structures; 2.1. Processing of Piezoceramic Thick Films; 2.2. Characterisation of Piezoelectrc Thick Films; 3. Piezoelectric Thick-Film Actuators; 3.1. Cantilever-Type Actuators; 3.1.1. Thick-Film Multilayer Actuator Structures; 3.1.2. Substrate-Free Actuator Structures; 3.2. Membrane-Type Actuators; Conclusion; Acknowledgments.
3. Langevin Transducer with Ultrasonic Concentrator3.1. Design criterion in vacuum; 3.2. Applications; 4. A New Flexural Ultrasonic Actuator; 4.1. Working principles; 4.2. Finite element model; 4.3. Basic design; 4.4. A flexural multifrequency actuator; References; Chapter 4: Active Control of the Dynamics of Hinged-Hinged Beam Using Piezoelectric Absorber; Abstract; 1. Introduction; 2. Modelling of the Dynamics of a Hinged-Hinged Beam under Transversal Excitation by an Un-bounded Single Well f6 Potential; 3. Description of the Model and General Mathematical Formalism.
3.1. Description of the physical model3.2. General mathematical formalism; 3.3. Optimization of control process; 3.4. Stability of active structural control; 3.5. Effects of the control on the amplitude of Harmonic oscillations; 3.6. Effects of the control on the appearance of unbounded motion; 3.7. Effects of the control on the basin of stability; 4. Conclusion; Acknowledgments; References; Chapter 5: Modeling and Control of Piezoelectric Actuator Systems; Abstract; 1. Introduction; 2. Piezoelectric Actuator; 3. Mathematical Modelling of Hysteresis; 3.1. The Maxwell model.
3.2. The time delay model3.3. The Jiles-Atherton model; 3.4. The Preisach model; 3.5. The LuGre model; 4. Modeling of the Piezoelectric Actuator; 5. Controller Design; 6. Simulation; 7. Conclusion; References; Index.
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Includes bibliographical references and index.

Description based on print version record.

PIEZOELECTRIC ACTUATORS; PIEZOELECTRIC ACTUATORS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapter 1: Recent Progress in Thick-Film Piezoelectric Actuators Prepared by Screen-Printing; Abstract; 1. Introduction; 2. Piezoceramic Thick-Film Structures; 2.1. Processing of Piezoceramic Thick Films; 2.2. Characterisation of Piezoelectrc Thick Films; 3. Piezoelectric Thick-Film Actuators; 3.1. Cantilever-Type Actuators; 3.1.1. Thick-Film Multilayer Actuator Structures; 3.1.2. Substrate-Free Actuator Structures; 3.2. Membrane-Type Actuators; Conclusion; Acknowledgments.

3. Langevin Transducer with Ultrasonic Concentrator3.1. Design criterion in vacuum; 3.2. Applications; 4. A New Flexural Ultrasonic Actuator; 4.1. Working principles; 4.2. Finite element model; 4.3. Basic design; 4.4. A flexural multifrequency actuator; References; Chapter 4: Active Control of the Dynamics of Hinged-Hinged Beam Using Piezoelectric Absorber; Abstract; 1. Introduction; 2. Modelling of the Dynamics of a Hinged-Hinged Beam under Transversal Excitation by an Un-bounded Single Well f6 Potential; 3. Description of the Model and General Mathematical Formalism.

3.1. Description of the physical model3.2. General mathematical formalism; 3.3. Optimization of control process; 3.4. Stability of active structural control; 3.5. Effects of the control on the amplitude of Harmonic oscillations; 3.6. Effects of the control on the appearance of unbounded motion; 3.7. Effects of the control on the basin of stability; 4. Conclusion; Acknowledgments; References; Chapter 5: Modeling and Control of Piezoelectric Actuator Systems; Abstract; 1. Introduction; 2. Piezoelectric Actuator; 3. Mathematical Modelling of Hysteresis; 3.1. The Maxwell model.

3.2. The time delay model3.3. The Jiles-Atherton model; 3.4. The Preisach model; 3.5. The LuGre model; 4. Modeling of the Piezoelectric Actuator; 5. Controller Design; 6. Simulation; 7. Conclusion; References; Index.

English.

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