Metal Surface Engineering: Developed Tribology offers updated and advanced information on tribology for ferrous and non-ferrous materials, and discusses the practical application and performance of surface engineering. It also covers wear prevention and low-friction techniques in mechanical, electrical, and electronic devices and components of equipment used in the automotive and aerospace industry to improve efficiency and extend equipment life. Furthermore, this book offers analytical approaches and symbolic models that demonstrate the control of materials under different conditions, helping to develop new industrial products and applications. In addition, this book also covers such advanced technologies as advanced coatings, thermal techniques, and diversification.
This is a comprehensive reference guide for students studying ferrous and non-ferrous materials, helping them to better understand the methods and techniques used in processing and reducing wear and friction. This book serves as a helpful reference for academics, scientists, and researchers by providing theoretical and experimental foundations for the study of networks and wear, and by supporting the development of new solutions in surface engineering.
Table of Contents:
Chapter 1 Characteristics of Metal Surface Engineering
Chapter 2 Surface Engineering
Chapter 3 Global Perspective of Surface Engineering
Chapter 4 Surface Engineering for Wear Test
Chapter 5 Tribological Studies of AISI 316 Stainless Steel Surfaces
Chapter 6 Tribosystems in Industrial Tribology
Chapter 7 Surface Treatments
Chapter 8 Surface Engineering and Manufacturing
Chapter 9 Health and Safety Issues in Emerging Surface Engineering Techniques
Chapter 10 Recent Developments in Surface Engineering
