Basic Engineering Plasticity: An Introduction with Engineering and Manufacturing Applications

Front Cover
Elsevier, Dec 2, 2012 - Technology & Engineering - 528 pages
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Plasticity is concerned with understanding the behavior of metals and alloys when loaded beyond the elastic limit, whether as a result of being shaped or as they are employed for load bearing structures.

Basic Engineering Plasticity delivers a comprehensive and accessible introduction to the theories of plasticity. It draws upon numerical techniques and theoretical developments to support detailed examples of the application of plasticity theory. This blend of topics and supporting textbook features ensure that this introduction to the science of plasticity will be valuable for a wide range of mechanical and manufacturing engineering students and professionals.
  • Brings together the elements of the mechanics of plasticity most pertinent to engineers, at both the micro- and macro-levels
  • Covers the theory and application of topics such as Limit Analysis, Slip Line Field theory, Crystal Plasticity, Sheet and Bulk Metal Forming, as well as the use of Finite Element Analysis
  • Clear and well-organized with extensive worked engineering application examples, and end of chapter exercises
 

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Contents

CHAPTER 2 STRAIN ANALYSIS
33
CHAPTER 3 YIELD CRITERIA
65
CHAPTER 4 NONHARDENING PLASTICITY
95
CHAPTER 5 ELASTICPERFECT PLASTICITY
127
CHAPTER 6 SLIP LINE FIELDS
161
CHAPTER 7 LIMIT ANALYSIS
213
CHAPTER 8 CRYSTAL PLASTICITY
241
CHAPTER 9 THE FLOW CURVE
269
CHAPTER 10 PLASTICITY WITH HARDENING
309
CHAPTER 11 ORTHOTROPIC PLASTICITY
339
CHAPTER 12 PLASTIC INSTABILITY
371
CHAPTER 14 PRODUCTION PROCESSES
439
CHAPTER 15 APPLICATIONS OF FINITE ELEMENTS
479
Index
505
Copyright

Other editions - View all

Basic Engineering Plasticity: An Introduction with Engineering and ...
David W. A. Rees
No preview available - 2006

Common terms and phrases

anisotropy applied axes axis becomes buckling co-ordinates coefficient compressive condition constant corresponding cylinder defined deformation deſ deviatoric displacement displacement vector elastic elastic-plastic Equation equivalent plastic strain equivalent stress extrusion Figure flow curve flow rule follows force friction given gives gradient grain hardening Hencky hodograph initial yield instability isotropic loading material matrix Mech metal Mises normal normalised orthogonal orthotropic plane strain plane stress plastic strain increment pole Prandtl-Reuss predictions pressure principal stress radial radius ratio residual stress roll rotation shear strain shear stress sheet shown in Fig shows slip line solution strain paths strain tensor stress and strain stress components stress distributions stress plane stress-strain stress-strain curve Substituting tensile tension testpiece theory thickness torque torsion Tresca uniaxial vector velocity discontinuities wave yield criterion yield function yield locus yield point yield stress yield surface zone

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About the author (2012)

W. David Rees is a former Principal Lecturer in Management at the University of Westminster. He has extensive consultancy experience in the UK and overseas, both in the private and public sectors. He is a Chartered Fellow of the Chartered Institute of Personnel Development and is a member of the Advisory Conciliation and Arbitration Service's panel of independent arbitrators.

Bibliographic information

QR code for Basic Engineering Plasticity
TitleBasic Engineering Plasticity: An Introduction with Engineering and Manufacturing Applications
AuthorDavid Rees
PublisherElsevier, 2012
ISBN0080470904, 9780080470900
Length528 pages
Subjects ›  › 

Science / Mechanics / Solids
Technology & Engineering / Materials Science / General
Technology & Engineering / Mechanical
  
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