Sustainable Material Forming and Joining
The main objective of the book is to expose readers to the basics of sustainable material forming and joining technologies, and to discuss the relationship between conventional and sustainable processes. It also provides case studies for sustainable issues in material forming and joining processes, workouts for converting conventional processes to green processes, and highlights the importance of awareness on sustainable and green manufacturing through education. The book will include green and sustainability concepts in material forming like bulk forming and sheet forming emphasizing hot forming, materials development, lubrication, and minimizing defects.
Key Features
- Conceptualizes green and sustainability issues towards efficient material forming and joining
- Addresses important aspects of sustainable manufacturing by forming operations
- Presents comparison between traditional and sustainable manufacturing processes
- Includes practical case studies from industry experts
- Discusses green and sustainability concepts in material forming like bulk forming and sheet forming emphasizing hot forming, materials development, lubrication, and minimizing defects
1. Introduction to Sustainable Manufacturing Processes 2. Sustainability in Material Forming 3. Sustainability in Joining 4. Friction and Lubrication in Sustainable Metal Forming 5. Development in Materials for Sustainable Manufacturing 6. Steel: A Sustainable Material of the Future 7. Strategies to Improve the Forming Quality of Sheets 8. Computations and Sustainability in Material Forming 9. Hot Stamping of Ultra-High-Strength Steel Parts 10. Tubular Hydroforming and Hydropiercing 11. Some Recent Developments in Microforming 12. Mechanical Joining Processes 13. Hybrid Joining Processes 14. Green Lubricants and Lubrication 15. LASER-Based Manufacturing as a Green Manufacturing Process 16. Models and Approaches for Sustainable Performance Measurement 17. Sustainable Manufacturing—Getting Future Ready 18. Dissemination of Sustainability and Education 19. Sustainability, Health, and Environment: A Case Study of Waste Management Sector
Dr. R. Ganesh Narayanan
Dr. R. Ganesh Narayanan is an Associate Professor at the Department of Mechanical Engineering, Indian Institute of Technology (IIT) Guwahati, India. He received his Ph.D. from the IIT Bombay, India. His research areas of interest include Metal Forming and Joining. He has contributed many research articles in reputed journals and international conferences. He has edited few books including ‘Strengthening and Joining by Plastic Deformation’ published by Springer Singapore, ‘Advances in Material Forming and Joining’ published by Springer India, and ‘Metal Forming Technology and Process Modeling’ published by McGraw Hill Education, India. He has also edited special issues of journals including ‘Advances in Computational Methods in Manufacturing’ in the International Journal of Mechatronics and Manufacturing Systems, and ‘Numerical Simulations in Manufacturing’ in the Journal of Machining and Forming Technologies. He has organized two international conferences at IIT Guwahati namely International Conference on Computational Methods in Manufacturing (ICCMM) in 2011, and the 5th International and 26th All India Manufacturing Technology, Design and Research (AIMTDR) Conference in 2014. He has also organized a GIAN course on ‘Green Material Forming and Joining’ at IIT Guwahati in 2016.
Dr. Jay S Gunasekera
Dr. Jay Gunasekera is an internationally recognized researcher in the area of metal forming and manufacturing. He has pioneered discoveries in the design of streamlined extrusion dies, forging and heat treatment problems, and ring rolling.
Dr. Gunasekera was the Mechanical Engineering Department Chair at Ohio University from 1991-2006. During his time as department chair, undergraduate and graduate enrollments increased significantly, two new laboratory courses for senior design and research were established, two-thirds of the current faculty were hired, and research funding increased exponentially to ov
Date de parution : 09-2020
17.8x25.4 cm
Date de parution : 02-2019
17.8x25.4 cm
Thèmes de Sustainable Material Forming and Joining :
Mots-clés :
Commercial Pure Ti; FSSW; bulk forming processes; Friction Stir; incremental sheet forming; Tamil Nadu; lubrication methods; Magnetic Pulse Welding; sustainable material forming technologies; Forming Limit Curve; sustainable material joining technologies; Friction Stir Processing; Hot Stamping Process; Friction Stir Welding; Ozone Depletion; Ozone Layer Depletion; Plunge Depth; RSW Joint; SPR; Multiphase Steel; TIG Welding; Cold Stamping; Hybrid Welding; Bottom Dead Center; Hot Stamping; EAF Route; ASM Handbook; RSW Machine; DLC Film; LFW