Metal Cutting, Fifth Edition builds upon the classic work that has for decades been the go-to reference for individuals working in the area of metal cutting. This revised edition, divided into four parts, features an extensive new chapter on coated cutting tools and updated and expanded chapters on ceramic cutting tools and machinability. A discussion of wear mechanisms and their governing equations is included, as are updates on tool micro examination, use of the quick-stop method, and tool temperature determination. Each chapter begins with a comprehensive bullet point summary and contents. The book will be useful for those studying and teaching courses on metal cutting and machining processes at the advanced undergraduate and graduate levels in universities as well as professional materials scientists and mechanical engineers in industrial manufacturing sectors centered on automotive and aerospace component production.
1. Introduction to Metal Cutting
2. Metal cutting operations and terminology
3. Essential features of metal cutting
4. Forces and stresses in metal cutting
5. Heat in metal cutting
6. Steel cutting tools
7. Cemented carbide cutting tools
8. Coated high speed steel and cemented carbide tools
9. Uncoated and coated ceramics and ultra-hard cutting tools
10. Cutting tool wear mechanisms
11. Machinability
12. Coolants and lubricants
13. High speed machining
14. Modeling of Metal Cutting
15. Management of Technology
16. Student exercises
Edward Moor Trent was born in England and was the first to describe the diffusion wear mechanisms in tungsten-carbide-cobalt cutting tools. This work was the foundation for new grades of carbide for cutting steels, and subsequently for the development of coated cutting tools. Trent was a prominent lecturer in the Industrial Metallurgy Dept. at Birmingham University and was awarded the "Hadfield Medal" by the Iron and Steel Institute in recognition of his contributions to metallurgy. His accomplishments are highly regarded among professionals in the field today. Founding author of this book. Paul Kenneth Wright (PhD) is prominent in the field and was formerly a professor of mechanical engineering and co-chairman of the Management of Technology Program at the University of California/Berkeley School of Engineering. He has written numerous articles for journals, conferences, and symposiums, as well as coauthored "Manufacturing Intelligence," with D.A. Bourne. In addition, he has served as a consultant and has been involved in many professional organizations.
Peter Albany Dearnley (PhD) formerly: Visiting Professor University of Southampton, UK, Senior Lecturer University of Leeds, UK.; Senior Lecturer University of Auckland, NZ., Senior Research Associate University of Cambridge, Research Fellow University of Birmingham, Research Technologist Sandvik Hard Materials Ltd, UK. Awarded (with Mr A N Grearson of Sandvik Hard Materials) the 1987 "Pfeil Medal" by the Institute of Materials, in recognition of their major contribution to understanding cutting tool wear mechanisms when machining titanium alloys.
