This reference focuses on properties of multilayer nanostructured wear-resistant coatings for cutting tools. The authors present a wealth of experimental data and offer generalizing theories, useful not only in the development of metal-cutting tools with coatings, but also in the creation of nanostructured materials for various applications.
This reference focuses on the properties of multilayer nanostructured wear-resistant coatings for cutting tools. It provides an extensive overview of modern methods and approaches to creating wear-resistant coatings for cutting tools. The authors present a wealth of experimental data and offer generalizing theories, useful not only in the development of metal-cutting tools with coatings, but also in the creation of nanostructured materials for various applications.
• Discusses the development and operation of nanostructured coatings operating under conditions of high temperatures, pressures, and chemical effects.
• Includes studies of coating properties during cutting using modern methods (TEM and SEM).
• Presents mathematical models that describe the process of coating deposition and the cutting process as stochastic processes, for the modeling of which it is necessary to use methods of probability theory.
The book is intended for engineering and technical workers, as well as graduate students involved in the development, research, and practical application of methods for applying wear-resistant coatings.
1. Analysis of Methods and Directions of Increasing Cutting Properties
of Tools by Applying Functional Coatings.
2. Theoretical Justification of the
Choice of Rational Architecture and Elemental Composition of Multilayer
Nanostructured Wear-Resistant Coatings.
3. Study of Mechanical Properties of
Multilayer Nanostructured Wear-Resistant Coatings.
4. Study of Cutting
Properties of Tools with Multilayer Nanostructured Wear-Resistant Coatings.
5. Study of Oxidation and Diffusion Processes during Cutting with Multilayer
Nanostructured Wear-Resistant Coatings.
A.A. Vereschaka is doctor of technical sciences, professor, specialist in the field of surface modification of materials and modifying coatings for various purposes, and head of the scientific group at the Institute for Design, Technological Informatics of the Russian Academy of Sciences (IDTI RAS).
S.N. Grigoriev is doctor of technical sciences, professor, head of the Department of Highly Efficient Processing Technologies, and head of the Spark Plasma Sintering Laboratory at Moscow State Technological University (STANKIN).
V.P. Tabakov is doctor of technical sciences and professor in the Department of Innovative Technologies in Mechanical Engineering, Ulyanovsk State Technical University.
