Read more
Automotive Composites addresses the materials, design and manufacturing of fiber-reinforced composites (FRCs) for structural automotive applications. The use of composites in the automotive industry is critically important for the design of lightweight structures to meet fuel economy standards, reduce greenhouse gas emissions and increase battery range in electric vehicles. This book discusses key issues around the manufacturing and mass-scale application of these composites in the automotive industry.
FEATURES - Teaches basic principles of FRCs for determining their mechanical and thermal behaviors
- Describes the manufacturing processes suitable for mass production of automotive composite components
- Discusses the joining of automotive composites with themselves and with other materials in the multimaterial construction of future automobiles
- Considers the material selection process, recycling and cost issues
- Includes multiple application examples around manufacturing and the design process and the performance characteristics of automotive composites vis-à-vis steels and aluminum alloys
- Offers end-of-chapter problems and worked examples
This textbook is aimed at mechanical and materials engineering students studying automotive composites as well as professional engineers developing these materials for industry application. A solutions manual and figure slides are available to adopting professors.
List of contents
1. Introduction. 2. Constituent Materials. 3. Fiber Parameters Affecting Composite Properties. 4. Continuous Fiber Lamina. 5. Continuous Fiber Composites. 6. Discontinuous Fiber Composites. 7. Durability of Automotive Composites. 8. Design. 9. Manufacturing Processes for Thermoset Matrix Composites. 10. Manufacturing Processes for Thermoplastic Matrix Composites. 11. Joining and Repair. 12. Cost, Recycling and Sustainability.
About the author
P.K. Mallick is the William E. Stirton Professor of Mechanical Engineering at the University of Michigan-Dearborn. He earned an MS and a PhD in mechanical engineering at the Illinois Institute of Technology. His research focuses on polymers and composites, lightweight automotive materials, joining and materials processing. Professor Mallick has authored several books, including
Fiber-Reinforced Composites: Materials, Manufacturing, and Design, 3rd ed., and
Processing of Polymer Matrix Composites. He is a Life Fellow of the American Society of Mechanical Engineers and a Fellow of the American Society for Composites.
