Elaborates on the principles and characteristics of smart materials and provides in-depth discussions of their applications in various domains. Introduces, and then presents the classification, potential, properties, applications, and fabrication techniques of smart materials. Highlights applications using smart materials.
Elaborates on the principles and characteristics of smart materials and provides in-depth discussions of their applications in various domains. Introduces, and then presents the classification, potential, properties, applications, and fabrication techniques of smart materials. Highlights applications using smart materials.
Kamal Kumar Kushwah, PhD, is a Professor and Head of the Department of Applied Physics at Jabalpur Engineering College, India. He has published research papers in national and international journals and has authored books and book chapters in the field of materials science. He is a regular reviewer for highly reputed journals. He has been the investigator of the research project titled "Development and Characterization of Rare Earth Ions Doped Borate Based Plasmonic Glasses for LSCs," funded by the National Project Implementation Unit, Govt. of India. Shilpi Jindal, PhD, is a Professor of Physics at UIS Chandigarh University, India. She has published several books and research articles with internationally renowned publishers. She is a life member of various agencies like the Indian Science Congress. Dr. Jindal is a green thinker. She has received acceptance for a patent on the topic Portable Load Carrying Device. Ajay Kumar Vyas, PhD, is an Associate Professor and Head of the Department Information and Communication Technology at Adani University, India. He has published books and research articles with internationally renowned publishers and journals and served as guest editor for the journals MDPI Photonics Journal and Frontiers in Digital Health. Dr. Vyas has also published several edited books and Vyas is a reviewer and editorial board member of several peer-review journals, including the Chinese Journal of Electrical Engineering. Prasenjit Chatterjee, PhD, is Dean (Research and Consultancy) at the MCKV Institute of Engineering, India. He has published over 130 research papers in international journals and conferences. He has authored and edited more than 15 books on intelligent decision-making, supply chain management, optimization techniques, risk, and sustainability modeling. He has received numerous awards for his work. He has also been a guest editor of several special journal issues. He is the editor of several book series, including AAP Research Notes on Optimization and Decision-Making Theories and Frontiers of Mechanical and Industrial Engineering.
Inhaltsangabe
PART I: INTRODUCTION TO SMART MATERIALS 1. Emerging Frontiers: Harnessing the Potential of Smart Materials 2. Classification of Smart Materials 3. Exploring the Potential of Smart Materials: An Overview of Properties and Applications 4. Graphene-Based Materials for Solar Cells: Review 5. Fabrication Techniques of Smart Materials PART II: CLASSIFICATION OF SMART MATERIALS 6. Machine Learning for Smart Materials 7. Impact of Smart Materials on Digital Twin 8. Deep Learning Methods in Materials Science 9. Nature-Based Smart Materials (NBSMs): Properties, Types, and Applications 10. Review on Dye-Sensitized Solar Cells (DSSCs): Smart Materials for Renewable Energy 11. Using Lime Water in the Manufacturing of Ferrochrome Ash-Based Geopolymer Concrete PART III: APPLICATIONS OF SMART MATERIALS 12. Trends in Robotics Technology: Solution for Materials to Manufacturing 13. Role of Smart Materials in the Adaptation of Electric Vehicles 14. Rheology of Smart Materials in Science and Engineering Fields: An Industrial Perspective 15. Impact of Materials in Solar Photovoltaic Applications in a Standalone System 16. 4D Printing: Fundamentals, Materials, Applications, and Challenges 17. Smart Materials for Healthcare 18. Binary Chalcogenide Polymer Nano-Composites for Electroluminescence and Photovoltaic-Solar Cell Applications
PART I: INTRODUCTION TO SMART MATERIALS 1. Emerging Frontiers: Harnessing the Potential of Smart Materials 2. Classification of Smart Materials 3. Exploring the Potential of Smart Materials: An Overview of Properties and Applications 4. Graphene-Based Materials for Solar Cells: Review 5. Fabrication Techniques of Smart Materials PART II: CLASSIFICATION OF SMART MATERIALS 6. Machine Learning for Smart Materials 7. Impact of Smart Materials on Digital Twin 8. Deep Learning Methods in Materials Science 9. Nature-Based Smart Materials (NBSMs): Properties, Types, and Applications 10. Review on Dye-Sensitized Solar Cells (DSSCs): Smart Materials for Renewable Energy 11. Using Lime Water in the Manufacturing of Ferrochrome Ash-Based Geopolymer Concrete PART III: APPLICATIONS OF SMART MATERIALS 12. Trends in Robotics Technology: Solution for Materials to Manufacturing 13. Role of Smart Materials in the Adaptation of Electric Vehicles 14. Rheology of Smart Materials in Science and Engineering Fields: An Industrial Perspective 15. Impact of Materials in Solar Photovoltaic Applications in a Standalone System 16. 4D Printing: Fundamentals, Materials, Applications, and Challenges 17. Smart Materials for Healthcare 18. Binary Chalcogenide Polymer Nano-Composites for Electroluminescence and Photovoltaic-Solar Cell Applications
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