Additive Manufacturing of Polymeric Materials for Energy Storage Applications synthesizes cutting-edge and developing research on additive manufacturing of polymeric materials for energy storage, covering the most recent developments in materials development, design optimization, process optimization, and characterization techniques. The book discusses how additive manufactured polymeric materials can be used for fuel cell components, batteries, supercapacitors, wind and solar energy storage, photovoltaic materials, and other energy-related applications. Fabrication techniques, design optimization methods, modeling approaches, and the mechanics of these materials are each covered in depth.
1. Introduction to Additive Manufactured Polymeric Materials for Energy Storage Application
2. Fundamentals of Additive Manufactured Polymeric Materials for Energy Storage Application
3. Additive Manufacturing Techniques for Polymeric Materials
4. Additive Manufacturing of Polymeric Materials for Battery and Supercapacitor Applications
5. Design Optimization for 3D Printed Polymeric Materials
6. Practical Applications of 3D-Printed Polymeric Materials as Fuel Cell and Photovoltaic Materials
7. Additive Manufacturing of Polymeric Materials for Wind and Solar Energy Storage Application
8. Additive Manufacturing of Intrinsically Conductive Polymers and Nanocomposites for Future Renewable Energy Applications
9. Mechanical and Physical Behavior of Additive Manufactured Polymer Nanocomposites
10. Recent Advances in Polymers and Polymer Nanocomposites for Additive Manufacturing for Energy Storage Applications
11. Modeling of Additive Manufactured Polymer-Based Materials for Energy Storage Applications
12. Economics, Strategies, Safety, and Policies Governing the Additive Manufacturing of Polymeric Materials for Energy Storage Applications
13. Overview of Current Challenges, Possible Remedies, and Future Applications of Additive Manufactured Polymers as Energy Storage Materials
Height:
Width:
Spine:
Weight:0.00