Grain Boundary Migration in Metals Thermodynamics, Kinetics, Applications, Second Edition

Thermodynamics of Grain Boundaries
Introductory Remarks
Thermodynamics of Surfaces
Experiments
Applications of Grain Boundary Thermodynamics
The Equilibrium Shape of Grain Boundaries
Structure of Grain Boundaries
Terminology and Definitions
Atomic Structure of Grain Boundaries
Grain Boundary Motion
Fundamentals
Driving Forces for Grain Boundary Migration
Drag Effects During Grain Boundary Motion
Measurement of Grain Boundary Mobility
Experimental Results
Effect of Wetting Phase Transitions on Grain Boundary Migration
Compensation Effect in Grain Boundary Motion
Mechanisms of Grain Boundary Migration
Thermodynamics and Kinetics of Connected Grain Boundaries
Microstructural Elements of Polycrystals
Thermodynamics of Triple Junctions
Motion of a Grain Boundary System with Triple Junctions
Triple Junctions Motion in the Presence of Impurities
Experimental Investigations of Triple Junction Motion
Triple Junction Drag and Grain Growth in 2D Polycrystals
Grain Growth in 3D Systems
Kinetics of Grain Growth Inhibited by Vacancy Generation
Computer Simulation of Grain Boundary Motion
Introduction
Driving Force Concepts
Migration of [001] Twist Grain Boundaries
Motion of Tilt Boundaries
Compensation Effect
Comparison with Experiments
Grain Boundary Diffusion
Atomic Mechanisms
Simulation of Triple Junction Motion
Applications
Characterization of Microstructure and Texture
Recrystallization and Grain Growth
On Precipitation Controlled Grain Size
Mechanisms on Retardation of Grain Growth
Grain Boundary Junction Engineering
Appendices
Solutions
References

Biography

Since 1989, Dr. Gunter Gottstein has been director of the Institute of Physical Metallurgy and Metal Physics of the RWTH Aachen University, Germany. He obtained his doctoral degree in Metal Physics from RWTH and, following his Habilitation at the Faculty of Mining and Metallurgy of RWTH, he spent about 10 years in the U.S., at Argonne National Laboratory, MIT, and Michigan State University. He was promoted to full professor at Michigan State University in 1985. Prof. Gottstein has published over 400 scientific papers, primarily in refereed journals, on topics such as interfaces, recrystallization, textures, materials modeling, and high-temperature crystal plasticity. He is the author, coauthor or coeditor of 12 books on material science, including a textbook which has been translated into several languages. Since 1991 he has worked closely with his co-author Prof. Shvindlerman on topics of grain boundary migration.

Dr. Lasar S. Shvindlerman is a Leading Scientific Researcher of the Institute of Solid State Physics (ISSP), Russian Academy of Sciences (Chernogolovka, Moscow distr., Russia) and Professor of Metal Physics at the Moscow Institute of Steel and Alloys. He studied Materials Science at the Kiev Polytechnic Institute, and obtained his doctoral degree in 1968 and his Dr. Sci. degree in Metal Physics in 1980. Since 1967, he has been associated with the Institute of Solid State Physics in Chernogolovka. Dr. Shvindlerman has published over 250 scientific papers and three books, primarily on topics of surface phenomena in solids, diffusion in metals, and phase transitions at grain boundaries in metals. Grain Boundary Migration in Metals: Thermodynamics, Kinetics, Applications is the result of his research collaboration with Prof. Gottstein.