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Table of Contents
1 Cover
5 Preface
6 1 Polymer Composites for Electrical Energy Storage 1.1 Introduction 1.2 General Considerations 1.3 Effect of Nanofiller Dimension 1.4 Orientation of Nanofillers 1.5 Surface Modification of Nanofillers 1.6 Polymer Composites with Multiple Nanofillers 1.7 Multilayer‐structured Polymer Composites 1.8 Conclusion References
7 2 Polymer Composites for Thermal Energy Storage 2.1 Introduction 2.2 Shape‐stabilized Polymeric Phase Change Composites 2.3 Thermally Conductive Polymeric Phase Change Composites 2.4 Energy Conversion and Storage Based on Polymeric Phase Change Composites 2.5 Emerging Applications of Polymeric Phase Change Composites 2.6 Conclusions and Outlook Acknowledgments References
8 3 Polymer Composites for High‐Temperature Applications 3.1 Applications of Polymer Composite Materials in High‐Temperature Electrical Insulation 3.2 High‐Temperature Applications for Electrical Energy Storage 3.3 Applications of High‐Temperature Polymer in Electronic Packaging 3.4 Applications of Polymer Composite Materials in the Field of High‐Temperature Wave‐Transmitting and Wave‐Absorbing Electrical Fields 3.5 Summary References
9 4 Fire‐Retardant Polymer Composites forElectrical Engineering 4.1 Introduction 4.2 Fire‐Retardant Cables and Wires 4.3 Fire‐Retardant Polymer Composites for Electrical Equipment 4.4 Fire‐Retardant Fiber Reinforced Polymer Composites 4.5 Conclusion and Outlook References
10 5 Polymer Composites for Power Cable Insulation 5.1 Introduction 5.2 Trend in Nanocomposite Materials for Cable Insulation 5.3 Factors Influencing Properties 5.4 Issues in Nanocomposite Insulation Materials Research 5.5 Understanding Dielectric and Insulation Phenomena References
11 6 Semi‐conductive Polymer Composites for Power Cables 6.1 Introduction 6.2 Conductive Mechanism of Semi‐conductive Polymer Composites 6.3 Effect of Polymer Matrix on Semi‐conductivity 6.4 Effect of Conductive Fillers on Semi‐conductivity 6.5 Effect of Semi‐conductive Composites on Space Charge Injection 6.6 Conclusions References
12 7 Polymer Composites for Electric Stress Control 7.1 Introduction 7.2 Functionally Graded Solid Insulators and Their Effect on Reducing Electric Field Stress 7.3 Practical Application of ε‐FGMs to GIS Spacer 7.4 Application to Power Apparatus References
13 8 Composite Materials Used in Outdoor Insulation 8.1 Introduction 8.2 Overview of SIR Materials 8.3 New External Insulation Materials 8.4 Summary References
14 9