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Full Description
This book aims to explore the field of tribology in micro- and nano-reinforced composites to enhance material performance across a range of applications. Researchers and engineers are actively researching different reinforcement configurations and material combinations to develop composites with superior tribological properties. This research will lead to more efficient and reliable engineering solutions.
Micro- and Nanocomposites: A Tribological Viewpoint will include a brief examination of previous reinforcement techniques and their impact on composite materials. It will also analyze how changes in tribological parameters affect material surface behavior. Understanding the role of tribology is crucial in assessing the performance of reinforced composite materials, especially in sustainable applications. A key focus of the book will be the significance of reinforcement selection from a tribological perspective in studying the environmental impact of modern industrial practices. Case studies are presented at the end of the book to illustrate the key principles discussed throughout.
Written for a diverse audience, this resource is suitable for researchers, professionals, corporations, and individuals in higher education courses. It can also serve as a valuable reference for those studying Advanced Composite Materials.
Contents
Section A: Fundamentals of Composites. 1. Fundamentals and History of Composites for Engineering Applications. 2. Atomic Scale Interface of Matrix and Reinforcement for Tribological Application. Section B: Tribological Performance of Polymer Matrix Composites. 3. Influence of Micro-Sized Filler Reinforcement in Tribological Performance of Polymer Composites. 4. Influence of Fillers on High-Temperatures Tribology of Polymer Matrix Composites. 5.Influence of Fillers on the Tribological Performance of Self-Lubricating Polymer Coatings. 6. Influence of Micro-Sized Filler Reinforcement on the Tribological Performance of Metal Matrix Composites. 7. Influence of Micro-Sized Filler Reinforcement on the Tribological Performance of Metal Matrix Composites. Section C: Tribological Performance of Metal Matrix Composites. 8. Influence of Nano-Sized Filler Reinforcement in Tribological Performance of Metal Matrix Composites. 9. Influence of Fillers on High-temperatures Tribology of Metal Matrix Composites. 10. Influence of Fillers in the Tribological Performance of Self-Lubricating Metal Matrix Coating. 11. Case Studies Related to the Tribological Performance of Reinforced Metal Matrix Composites: Comparative Analysis of Machine Learning Models for Predicting Wear Rates in AA7075/SiC Composite. 12. Case Studies Related to the Tribological Performance of Reinforced Metal Matrix Composites: Optimization of Tribological Properties in AA7075-WS2-TiC Hybrid Composites Using Taguchi-GRA Method. Section D: Tribiological Performance of Ceramic Matrix Composites. 13. Influence of Micro-sized Filler Reinforcement in Tribological Performance of Ceramic Matrix Composites. 14. Influence of Nano-Sized Filler Reinforcement in Tribological Performance of Ceramic Matrix Composites. 15. Influence of Fillers on High-Temperatures Tribology of Ceramic Matrix Composites. 16. Influence of Fillers in the Tribological Performance of Self-Lubricating Ceramic Matrix Coating: A Comprehensive Study. 17. Case Studies Related to the Tribological Performance of Reinforced Ceramic Matrix Composites.