Hamideh Khanbareh, Vitaly Yu. Topolov, Christopher R. Bowen.
.PUBLICATION, DISTRIBUTION, ETC
Place of Publication, Distribution, etc.
Cham, Switzerland :
Name of Publisher, Distributor, etc.
Springer,
Date of Publication, Distribution, etc.
[2019]
PHYSICAL DESCRIPTION
Specific Material Designation and Extent of Item
1 online resource
SERIES
Series Title
Springer Series in Materials Science ;
Volume Designation
volume 283
CONTENTS NOTE
Text of Note
Intro; Preface; References; Acknowledgements; Contents; About the Authors; 1 Piezo-Active Composites: Classification and Effective Physical Properties; 1.1 Piezo-Active Composites as Modern Active Dielectrics; 1.2 Criteria of Classifications of Composites; 1.3 Microgeometry and Connectivity; 1.4 Effective Physical Properties of Piezo-Active Composites; 1.4.1 Piezoelectric Medium and Its Characteristics; 1.4.2 Methods for Evaluation of Effective Properties; 1.4.3 Electromechanical Coupling Factors and Figures of Merit; 1.5 Conclusion; References; 2 Aspects of Composite Manufacturing
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2.1 Methods for Manufacturing2.2 Role of Ceramic and Polymer Components; 2.3 Role of Electric Poling; 2.4 Dielectrophoresis, Its Characteristics and Advantages; 2.4.1 Dielectrophoresis Processing: Application to Composites Based on Ferroelectric Ceramics; 2.4.2 Effect of Dielectrophoresis Structuring on Electric Displacement and Electromechanical Strain; 2.4.3 Reproducible Composite Patterns and Related Microgeometric Features; 2.5 In Situ Structuring and Poling; 2.6 Manufacturing of Piezo-Active Composites for High-Temperature Applications
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2.7 Manufacturing of Piezo-Particulate/Polymer Foam Composites2.8 Conclusion; References; 3 Experimental Studies on Effective Properties and Related Parameters of Piezo-Particulate Composites; 3.1 Microgeometry of Piezo-Particulate Composites; 3.2 Ferroelectric Behaviour and Related Parameters; 3.3 Pyroelectric Properties; 3.4 Enhancing Piezoelectric Sensitivity; 3.5 Dielectric and Piezoelectric Properties of Composites for High-Temperature Sensing; 3.6 Conclusion; References; 4 Modelling of the Composite Structure Formation During Dielectrophoresis; 4.1 Dielectrophoretic Force
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4.2 Viscous Drag4.3 Modelling and Parameters; 4.4 Interaction Between Ceramic Particles and Their Influence on the Composite Structure; 4.5 Conclusion; References; 5 Prediction of Effective Properties of Composites Based on Ferroelectric Ceramics; 5.1 0-3 Connectivity Patterns and Properties of Composites; 5.1.1 Connectivity and Effective Properties; 5.1.2 0-3 Composites Based on PbTiO3-Type Ceramics; 5.1.3 0-3 Composites Based on Pb(Zr, Ti)O3-Type Ceramics; 5.1.4 0-3-Type Composites with Two Kinds of Ceramic Inclusions; 5.2 1-3 Connectivity Patterns and Properties of Composites
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5.3 2-2 Connectivity and Properties of Parallel-Connected Composites5.4 Electromechanical Coupling; 5.5 Piezoelectric Properties and Their Anisotropy; 5.6 Figures of Merit; 5.7 Mixed Connectivity Model and Effective Properties; 5.8 Conclusion; References; 6 From Microgeometry to Improved Properties of Piezo-Particulate Composites; 6.1 Dielectrophoresis and Structure -- Properties Relations; References; Appendix A: List of Abbreviations; Appendix B: Formulae of Polymer Components; References; Appendix C: Electromechanical Constants of Poled Ferroelectric Ceramics; References; Index
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SUMMARY OR ABSTRACT
Text of Note
This book provides an overview of the current state of the art in novel piezo-composites based on ferroelectrics. Covering aspects ranging from theoretical materials simulation and manufacturing and characterization methods, to the application and performance of these materials, it focuses on the optimization of the material parameters. Presenting the latest findings on modern composites and highlighting the applications of piezoelectric materials for sensors, transducers and hydro-acoustics, the book addresses an important gap in the physics of active dielectrics and materials science and describes new trends in the research on ferroelectric composites.