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Full Description
This book provides an in-depth understanding of the properties, characterization, and applications of advanced functional and composite materials for energy, electronics, biomedicine, and aerospace fields. Divided into four sections, it covers sustainable smart and composite materials, intelligent techniques for optimization of material properties, their characterization, and processing, case studies based on modernization in processes and systems, sustainability-based approaches, and novel strategies, and Sustainability and Industry 4.0 based contents.
Provides smart materials and sustainability, novel product design, and materials implementation
Reviews molecular dynamics simulation techniques
Includes Industry 4.0 and sustainability interventions in functional composites
Discusses life cycle engineering and analysis in composite processing
Covers microwave-assisted processing of composites
This book is aimed at graduate students and researchers in materials sciences and metallurgy, mechanical and manufacturing engineering.
Contents
1 Functionally Graded Materials in Medical Applications. 2. Sustainable smart materials and composite structures. 3. Polymer Materials Properties and Characterization Study with Focus on Sustainability. 4. Tensile and Piezoelectric Performance of Polyvinylidene Fluoride (PVDF), Boron Nitride Nanosheets (BNNSs) and Graphene Nano Platelets (GNPs) Hybrid Composite. 5. Emerging trends and prospects of Noble metal-based nanocomposites for electrochemical sensing and anticancer activity. 6. Mechanical Properties and Water Absorption Behavior of Jute/Nettle Hybrid Epoxy Composite. 7. Utilizing Artificial Intelligence for Characterization and Quantification of Damage in Fiber Reinforced Composites: Advanced Techniques and Applications. 8. Molecular Dynamics Simulation of Mechanical Behavior of Penta-Graphene. 9. Blast Performance Assessment of Metallic Plate and Composite Laminate: A Comparative Numerical Study. 10. Critical Review on Impact of Nano Fillers in of Bio Polymer Composites. 11. The Various Types of Severe Plastic Deformation Processes to Develop Ultra-Fine Grain structure in Materials with Enhanced Mechanical Properties. 12. Aluminum based composites with TiB2 and multicomponent alloy reinforcements: Processing, microstructure, and property enhancement. 13. Introduction to functionally graded materials. 14. Functionally graded materials in medical applications (e.g. implants, drug delivery, tissue engineering)
