
ISBN13: | 9781032804521 |
ISBN10: | 1032804521 |
Kötéstípus: | Keménykötés |
Terjedelem: | 308 oldal |
Méret: | 254x178 mm |
Nyelv: | angol |
Illusztrációk: | 133 Illustrations, black & white; 62 Halftones, black & white; 71 Line drawings, black & white; 33 Tables, black & white |
700 |
Fundamentals and Advances in Metal Matrix Composites
GBP 160.00
Kattintson ide a feliratkozáshoz
The scope of this book covers the fundamental background of Metal Matrix Composites (MMCs), their processing and fabrication, testing and characterization, exploration of materials for MMCs and green MMCs, and advancements in all aspects of fabrication, testing, and applications.
The scope of this book covers the fundamental background of metal matrix composites (MMCs), their processing and fabrication, testing and characterization, exploration of materials for MMCs and green MMCs, and advancements in all aspects of fabrication, testing, and applications. Development or fabrication of MMCs with evaluation of mechanical and tribological properties as well as machinability evaluation, optimization of fabrication process, and machining operations are covered.
Features:
- Covers advanced processing strategies and machining studies for composite materials
- Discusses representative volume element-based FEM modelling approaches and sustainability
- Sheds light on advancements in MMC application, fabrication, and testing
- Reviews green MMCs and sustainability in MMCs development
- Includes case studies and intelligent modelling methodologies
This book is aimed at graduate students, researchers, and professionals in micro/nanoscience and technology, mechanical engineering, industrial engineering, metallurgy, and composites.
1 Processing, Properties and Applications of Metal Matrix Composites; 2 Development of Metal Matrix Composites Through Liquid State Technique; 3 Exploring Liquid Metallurgy Processes for Advanced Metal Matrix Composite; 4 Development of Metal Matrix Composites Through Solid-State Techniques; 5 Additive Manufacturing of Metal Matrix Composites; 6 A Review on Selective Laser Melting of Aluminium Metal Matrix Composites; 7 Investigation on Properties of Metal Matrix Composites Fabricated Through Additive Manufacturing; 8 Advancement in Fabrication of Metal Matrix Composites; 9 Fabrication of Intelligent Metal Matrix Composites and Their Applications; 10 Investigation of the Effects of Process Parameters on Metal Matrix Composites of A356 with SiC on Mechanical and Tribological Characteristics; 11 Mechanical Characteristics of Hybrid Metal Matrix Composites Fabricated through Liquid State Technique; 12 Investigation on Properties of Friction Stir Welded Metal Matrix Composites; 13 Industry 4.0 Based Approaches for Fabrication, Processing and Testing of Metal Matrix Composites; 14 Modern Machining of Metal Matrix Composites; 15 Conventional Machining of Metal Matrix Composites; 16 Investigation of Electrical Discharge Machining on Powder Metallurgy Aluminium Metal Matrix Composites; 17 Joining of Metal Matrix Composites; 18 Advanced Forming Methods and Processing Condition of Metal Matrix Composites; 19 Sustainable Approaches for Metal Matrix Composites Fabrication; 20 New Insights into Metal Matrix Composite Recycling and Reclamation