Fundamentals and engineering of severe plastic deformation

Recent extensive activity on severe plastic deformation (SPD) as a new materials processing technology has generated vast experimental and analytical amounts of information. However, there is still a strong need for a multidisciplinary understanding of SPD. This book consists of in-depth analyses of the fundamentals and engineering of SPD on processing mechanics, the micro-mechanics of plastic deformation and the physics of the structure-properties relationship. This book bridges the gap between existing approaches, resolves certain controversies, and provides a united description of SPD at different scales.

• Continuum Approach to Severe Plastic Deformation (SPD)
• Processes of Severe Plastic Deformation
• Mechanics of Equal-Channel Angular Extrusion (ECAE)
• ECAE Processing
• Applications of ECAE
• Fundamentals of Poly-Crystal Modeling
• Models for Texture Development
• Modeling Single & Multiple Passes in ECAE
• Texture Characterization
• Texture Evolution during ECAE
• Deviation from Simple Shear Temperature
• Texture Evolution in Route C Nomenclature
• Deformation Twinning & SPD
• Mechanical Response of SPD'ed Metals
• Non-Equilibrium Grain Boundaries
• Dislocations in Nano-Microcrystalline(NMC) Metals
• Vacancies in NMC Metals
• Diffusion Properties of Grain Boundaries in NMC Metals
• Limit of Grain Refinement during ECAE
• Recrystallization & Grain Growth in Pure NMC Metals
• Recrystallization & Grain Growth in NMC Metals
• Optimum Grain Size for StructuralSuperplasicity
• Strain Hardening during Superplasticity
• Yield Stress of NMC Metals at RoomTemperature
• Strength & Ductility of NMC Metals at Room
• Index.