Advances in Sustainable Machining and Manufacturing Processes (eBook, PDF)

Redaktion: Kumar Gajrani, Kishor; Kumar, Ashwani; Prasad, Arbind

• Format: PDF

Produktbeschreibung

This book comprehensively covers basic concepts, advanced research topics, case studies, and advancement in sustainable machining techniques in a single volume. It will an ideal text for undergraduate, graduate students, and researchers in the fields of mechanical, manufacturing, industrial, production engineering and materials science.

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Produktdetails

• Verlag: Taylor & Francis
• Seitenzahl: 328
• Erscheinungstermin: 18. Mai 2022
• Englisch
• ISBN-13: 9781000586220
• Artikelnr.: 63740824

Autorenporträt

Dr.Kishor Kumar Gajrani is an Assistant Professor in the Department of Mechanical Engineering at the Indian Institute of Information Technology, Design and Manufacturing, Kancheepuram, Chennai, India. He has done M.Tech and Ph.D. degree from the Department of Mechanical Engineering at the Indian Institute of Technology Guwahati. Thereafter, he worked as a post-doctoral researcher at Indian Institute of Technology Bombay. He has published 27 international journals and book chapters of repute as well as attended numerous conferences. His research interests are broadly related to the advancement of sustainable machining processes, advanced materials, tribology, coatings, green lubricants and coolants and food packaging. Dr. Arbind Prasad has completed his Ph.D. in Mechanical Engineering from Indian Institute of Technology Guwahati, Assam, India. He has filled 4 patents out of his research work. He has numerous international Journal papers, book chapters and reputed conference papers to his credit. He is currently working as an Assistant Professor and Head (Mechanical Engineering) in the Department of Science and Technology, Government of Bihar, Posted at Katihar Engineering College, Katihar, Bihar, India. His main areas of interest include manufacturing, machining, polymer composites, biomaterials, and orthopedic biomedical applications. Dr. Ashwani Kumar received Ph.D. (Mechanical Engineering) in the area of Mechanical Vibration and Design. He is currently working at Technical Education Department, Uttar Pradesh (under Government of Uttar Pradesh) India. He has twelve years of research and academic experience in mechanical and materials engineering. He is editorial board member of 5 international journals. He has published 90 research articles in journals, book chapters and conferences. He has authored/co-authored cum edited 15 books of Mechanical and Materials Engineering. He is currently involved in the research area of Advanced Materials, Heavy Vehicle Dynamics, Mechanical Vibration and Coriolis Mass Flow Sensor.

Inhaltsangabe

Section A: Sustainable Machining 1. Challenges in the machining of advanced
materials 2. Machining advanced ceramics materials: Challenges and
opportunities
3. Characterization and evaluation of eco-friendly cutting fluids 4.
Advances in textured cutting tools for machining 5. Advances in MQL
machining
6. Nanofluids applications for cutting fluids 7. Nanofluids for machining
in the era of industry 4.0 8. Ionic liquids as a potential sustainable
green lubricant for machining in the era of industry 4.0
9. Sustainable electrical discharge machining process - A pathway 10.
Sustainable abrasive jet machining 11. Artificial neural network for
machining
12. Machining and vibration behaviour of Ti-TiB composites processed
through powder metallurgy techniques 13. FEM analysis during machining of
AISI 4340 work piece using Al2O3 coated carbide tool and Compare with
simulation result
14. Machining Performance Evaluation of Titanium Biomaterial, Ti6Al4V in
CNC cylindrical turning using CBN Insert
Section B: Manufacturing Processes 15. Industrial internet of things in
manufacturing 16. Improvement in forming characteristics resulted in
incremental sheet forming
17. Deformation mechanism of polymers, metals and their composites in
dieless forming operation 18. Sustainable polishing of DED based cladding
using micro-plasma transferred arc