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Full Description
Multifunctional and Smart Materials presents advancements in multifunctional, sustainable, and smart materials that enhance performance and improve processes across a wide range of engineering fields, including renewable energy, automotive, and aerospace. It provides a comprehensive overview of material design, properties, and emerging applications.
Offering a deep dive into sustainable materials, the book addresses how eco-friendly, recyclable, and renewable materials are reducing environmental impact and contributing to a circular economy. It explores advanced materials that perform multiple functions, such as power generation, energy storage, and structural integrity. The book highlights recent developments in materials research from 3D-printed materials for enhanced efficiency and waste reduction in manufacturing processes to smart coatings for multifunctional protection against environmental and operational stresses.
This book is intended for researchers and graduate students studying advanced materials and multidisciplinary engineering applications for intelligent, eco-friendly, and multipurpose materials.
Contents
1. Properties and Applications of Sustainable Polymers. 2. Innovations in Composites for Engineering Applications. 3. 3D-Printed Materials for Efficient Manufacturing Processes. 4. Advanced Hybrid Methodologies on Functionally Graded Coatings. 5. Ceramic Matrix and Metal Matrix Composites. 6. Thermal and Mechanical Properties of Advanced Ceramics. 7. Synthesis, Properties, and Applications of Nanostructured Materials. 8. Nanostructured Thermal Barrier Coatings. 9. Bio-Inspired Materials for Sustainable Bioprinting Technologies. 10. Smart Alloys in Biomedical Engineering Applications. 11. Smart Alloys in Aerospace Engineering Applications. 12. Smart Coatings for Multifunctional Protection Against Environmental and Operational Stresses. 13. Sustainable Materials Engineering for High-Sensitivity and Energy-Efficient Sensors. 14. Harnessing Materials for Sustainable Energy Systems. 15. Magnetic Applications in Power Generation and Energy Storage. 16. Materials Performance for Sustainable Engineering Applications. 17. Fuzzy Modeling and Sustainable Materials for Precision Surface Engineering in Polycarbonates. 18. Future Materials: The Rise of Smart, Adaptive, and Multifunctional Systems.
