Material-Oriented Cutting Processes in Precision Machining

This book studies the influence of material properties on the precision machining process from a microscopic perspective. In the present book, the properties of single crystal materials, polycrystalline materials, amorphous materials, ferrous materials, diamond tool materials, size effects and their influence on the cutting process and performance in precision machining are proposed. Moreover, the cutting mechanism and surface generation as machining different materials are presented, also some cutting process optimizations are suggested to improve the cutting processes. This book aims to provide a variety of feasible machining technology and advanced cutting processes for machining different kinds of materials. Since the book focuses on the materials' oriented precision processes, it encompasses both materials science and machining technologies. Graduate students, researchers and engineering technicians in related research fields will benefit from this book.

Provides a feasible machining technology and advanced cutting processes for machining materials Presents diamond synthesis technology, diamond tool preparation and its cutting performance optimization Reveals the generation mechanism and criterion of size effect

Autorentext

Guoqing Zhang, Professor at Shenzhen University, China. He received his bachelor's degree in mechanical engineering from Northeast Petroleum University, China, in 2005. In 2009, he received his master s degree in mechanical engineering from Harbin Institute of Technology, China. And he received his Ph.D. degree from the Hong Kong Polytechnic University in 2014. Also he serves as Deputy Director of Guangdong Key Laboratory of Electromagnetic Control and Intelligent Robots, Committee Member of Chinese Mechanical Engineering Society Design Branch etc..

His research interests include ultra-precision machining technology and equipment, robots and intelligent equipment, etc. Until now, he has hosted more than 10 research projects, including 4 National Natural Science Foundation of China (NSFC) projects, published more than 110 peer-reviewed papers, Co-edited 4 books and granted 14 US patents and 47 CN patents.

Jianpeng Wang, Research Assistant at Shenzhen University, China. He received his bachelor s degree in mechanical engineering from Yantai University, China, in 2018. In 2022, he received his master s degree in mechanical engineering from Shenzhen University, China.

His primary research interest includes ultra-precision machining technology and equipment. Until now, he has published more than 10 peer-reviewed papers and has been granted 5 CN patents. He has co-edited 2 books published by Springer.

Inhalt

Chapter 1 Cutting mechanism in machining Single Crystal Materials.- Chapter 2 Surface generation in machining Single Crystal Materials.- Chapter 3 Cutting process in machining Polycrystalline Materials.- Chapter 4 Cutting process in machining Amorphous Materials.- Chapter 5 Tool wear mechanism and suppression in machining Ferrous Materials.- Chapter 6 Cutting process in machining Ferrous Materials.- Chapter 7 Size effect on cutting process in precision machining.- Chapter 8 Synthetic diamond and application in precision machining.