Piezoceramic materials and devices / Ivan A. Parinov, editor.
Material type:
TextSeries: Materials science and technologies seriesPublisher: Hauppauge, New York : Nova Science Publishers, [2010]Description: 1 online resourceContent type: - text
- computer
- online resource
- 9781617289583
- 1617289582
- 1608764591
- 9781608764594
- 620.1/4 22
- TK7871.15.C4
Includes bibliographical references and index.
Description based on print version record.
""PIEZOCERAMIC MATERIALS AND DEVICES ""; ""PIEZOCERAMIC MATERIALS AND DEVICES ""; ""DEDICATION ""; ""CONTENTS""; ""PREFACE""; ""LEAD-FREE LONG AGO ""; ""ABSTRACT ""; ""1. INTRODUCTION ""; ""2. DIELECTRIC AND PIEZOELECTRIC PROPERTIES OF NaNbO3-BASED SOLID SOLUTIONS ""; ""3. CRYSTAL-CHEMICAL EFFECTS OF THERMODYNAMIC HISTORY ON COMPOSITION�a�?TEMPERATURE PHASE DIAGRAMS OF (Na, Li)NbO3 AND (Na, K)NbO3 SOLID SOLUTIONS ""; ""4. MODIFICATION OF (Na, Li)NbO3 SOLID SOLUTIONS WITH HETEROVALENT CATIONS ""; ""4.1. Solid Solutions with nMA > nA (SS-1 And SS-2) ""
""4.2. Solid Solutions with nMB nB (SS-4 And SS-5)""; ""5. THE PHASE DIAGRAM AND PROPERTIES OF SOLID SOLUTIONS OF THE TERNARY SODIUM-LITHIUM-POTASSIUM NIOBATE SYSTEM ""; ""6. PHASE DIAGRAMS AND FERROELECTRIC PROPERTIES OF SOLID SOLUTIONS OF THE TERNARY SYSTEMS (Na, Li, Cd0.5)NbO3 AND (Na, Li, Sr0.5)NbO3 ""; ""6.1. Solid Solutions of the (Na, Li, Cd0.5)NbO3 System ""; ""6.2. Solid Solutions of the (Na, Li, Sr0.5)NbO3 System ""
""7. PRODUCTION AND DIELECTRIC PROPERTIES OF LEAD-FREE CERAMICS WITH THE FORMULA [(Na0.5K0.5)1 �a�? XLiX](Nb1 �a�? Y �a�?ZTaYSbZ)O3 """"7.1. Objects of Investigation ""; ""7.2. Methods of Sample Production ""; ""7.3. Methods of Sample Analysis ""; ""8. DEFORMATION, POLARIZATION, AND REVERSIBLE PROPERTIES OF LEAD-FREE CERAMICS BASED ON ALKALI METAL NIOBATES""; ""9. CONCLUSIONS ""; ""REFERENCES ""; ""HIGH PERFORMANCE OF ADVANCED COMPOSITES BASED ON RELAXOR-FERROELECTRIC SINGLE CRYSTALS ""; ""ABSTRACT ""; ""1. INTRODUCTION ""
""2. RELAXOR-FERROELECTRIC SOLID SOLUTIONS AND THEIR ELECTROMECHANICAL PROPERTIES """"3. COMPOSITES WITH 2�a�?2-TYPE CONNECTIVITY AND THEIR PERFORMANCE ""; ""3.1 2�a�?2 Parallel-Connected Composite Based on PZN�a�?0.07PT: Effect of the Orientation of Crystallographic Axes ""; ""3.2 2�a�?2�a�?0 Composite Based on PZN�a�?0.07PT: Effect ofPorosity in Polymer Layers ""; ""3.3 2�a�?2 Composite Based on PZN�a�?0.07PT: Illustrative Example of Combination of Electromechanical Properties ""; ""3.4 2�a�?2 Composite Based on PMN�a�?0.33PT: Key Role of the Single-Domain State ""
""4. THE 1�a�?3-TYPE COMPOSITES AND THEIR PERFORMANCE """"4.1 Maxima of Effective Parameters of 1�a�?3-Type Composites""; ""4.2 Piezoelectric Response of 1�a�?2�a�?2 Composites ""; ""5. COMPARISON OF THE PERFORMANCE OF FERROELECTRIC CERAMIC / POLYMER COMPOSITES""; ""6. CONCLUSION ""; ""ACKNOWLEDGMENTS ""; ""REFERENCES ""; ""CERAMIC PIEZOCOMPOSITES: MODELING, TECHNOLOGY, AND CHARACTERIZATION ""; ""ABSTRACT ""; ""1. INTRODUCTION ""; ""2. MICROSTRUCTURAL DESIGN CONCEPT FOR POLYCRYSTALLINE COMPOSITE MATERIALS ""; ""2.1. MSD Concept Content ""; ""2.2. Some Examples of MSD Concept Realization ""
English.
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