Superplasticity and Grain Boundaries in Ultrafine-Grained Materials (2nd Ed.) Woodhead Publishing in Materials Series
Auteurs : Zhilyaev Alexander P., Utyashev Farid Z., Raab Georgy I.
Section A Advanced processing of ultrafine-grained and nanostructured materials 1. Basics of Nanostructure Processing 2. Influence of Deformation Mechanisms on Grain Refinement 3. Processing Ultrafine-Grained and Nanostructured Materials
Section B Grain boundary ensembles in polycrystalline materials 4. Characteristics of Grain Boundary Ensembles 5. Orientation-distributed Parameters of the Polycrystalline Structure 6. Experimental Investigations of Grain Boundary Ensembles in Polycrystals
Section C Microstructure and grain boundary ensembles in ultrafine-grained materials 7. Effect of the Parameters of Quasi-Hydrostatic Pressure on the Microstructure and Grain Boundary Ensembles in Nickel 8. Grain Boundary Processes in Ultrafine-grained Nickel and Nanonickel
Section D Theory of structural superplasticity of polycrystalline materials 9. Structural superplasticity of polycrystalline materials 10. Grain Boundary Sliding in Metallic Bi- and Tricrystals 11. Percolation Mechanism of Deformation Processes in Ultrafine-Grained Polycrystals 12. Duration of the Stable Flow in Superplastic Deformation 13. Derivation of Constitutive Equations in Multicomponent Loading Conditions
Principal Researcher, Institute for Metals Superplasticity Problems, Russian Academy of Science. Dr. Utyashev has published over 40 papers in peer-review journals and is the co-author of the book Superplasticity: Microstructural Refinement and Superplastic Roll Forming.
Head of the Laboratory for Severe Plastic Deformation (SPD) Technologies. Dr. Raab is the inventor of such SPD processes as ECAP-Conform, ECAP with parallel channels, Multi-ECAP-Conform, and others. His main area of research is the experimental study of equal-channel angular pressing technique, aimed at fabrication of bulk ultrafine-grained billets from ductile and hard-to-deform metals and alloys.
- Provides practical applications and methods for the proper implementation of models, allowing for more effective complex metal forming processes
- Features new chapters on the microstructure, mechanical behavior and functional properties of HCP metals, processing ultrafine-grained and nanostructured materials, and more
- Covers experimental assessment and computational modeling techniques for adiabatic heating and saturation of grain refinement during SPD of metals and alloys
Date de parution : 11-2020
Ouvrage de 440 p.
15x22.8 cm