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Fundamentals and Engineering of Severe Plastic Deformation $350.00
Authors: Vladimir M. Segal (Howell, MI), Irene J. Beyerlein and Carlos N. Tome (Los Alamos National Laboratory, Los Alamos, NM), Vladimir N. Chuvildeev (University of Nizhny Novgorod, Russia), Vladimir I. Kopylov (FTI NANB, Minsk, Belarus) 
Book Description:
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.

Table of Contents:
PART ONE: FUNDAMENTALS AND ENGINEERING OF SEVERE PLASTIC DEFORMATION

Chapter 1. Continuum Approach to Severe Plastic Deformation (SPD)

Chapter 2. Processes of Severe Plastic Deformation

Chapter 3. Mechanics of Equal-Channel Angular Extrusion (ECAE)

Chapter 4. ECAE Processing

Chapter 5. Applications of ECAE

PART II. MATHEMATICAL MODELING OF SEVERE PLASTIC DEFORMATION

Chapter 6. Fundamentals of Poly-Crystal Modeling

Chapter 7. Models for Texture Development

Chapter 8. Modeling Single and Multiple Passes in ECAE

Chapter 9. Texture Characterization

Chapter 10. Texture Evolution during ECAE

Chapter 11. Deviation from Simple Shear

Chapter 12. Texture Evolution in Route C

Chapter 13. Deformation Twinning and SPD

Chapter 14. Mechanical Response of SPD’ed Metals

PART III. STRUCTURE AND PROPERTIES OF MATERIALS PRODUCED BY SEVERE PLASTIC DEFORMATION

Chapter 15. Non-Equilibrium Grain Boundaries

Chapter 16. Dislocations in Nano-Microcrystalline (NMC) Metals

Chapter 17. Vacancies in NMC Metals

Chapter 18. Diffusion Properties of Grain Boundaries in NMC Metals

Chapter 19. Limit of Grain Refinement during ECAE

Chapter 20. Recrystallization and Grain Growth in Pure NMC Metals

Chapter 21. Recrystallization and Grain Growth in NMC Metals

Chapter 22. Optimum Grain Size for Structural Superplasicity

Chapter 23. Strain Hardening during Superplasticity

Chapter 24. Yield Stress of NMC Metals at Room Temperature. Hall-Petch Relation.

Chapter 25. Strength and Ductility of NMC Metals at Room Temperature

Nomenclature

Abbreviations

References

Index

   Series:
      Materials Science and Technologies
   Binding: ebook
   Pub. Date: 2010
   Pages: 7 x 10
   ISBN: 978-1-61668-458-7
   Status: AV
  
Status Code Description
AN Announcing
FM Formatting
PP Page Proofs
FP Final Production
EP Editorial Production
PR At Prepress
AP At Press
AV Available
  
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Fundamentals and Engineering of Severe Plastic Deformation