Book contents
- Frontmatter
- Contents
- Preface
- Historical perspective
- Notation
- 1 Introduction to plasticity: experimental facts
- 2 Thermomechanics of elastoviscoplastic continua
- 3 Small-strain elastoplasticity
- 4 Problems in perfect elastoplasticity
- 5 Elastoplasticity with strain-hardening
- 6 Elements of limit analysis
- 7 Crack propagation and fracture mechanics
- 8 Elastoplasticity with finite strains
- 9 Homogenization of elastoplastic composites
- 10 Coupling between plasticity and damage
- 11 Numerical solution of plasticity problems
- 12 Experimental study using infrared thermography
- Appendix 1 Thermodynamics of continuous media
- Appendix 2 Convexity
- Appendix 3 Analytic solutions of some problems in elastoplasticity
- Appendix 4 Analytic computation of stress-intensity factors
- Further reading
- Bibliography
- Index
Preface
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface
- Historical perspective
- Notation
- 1 Introduction to plasticity: experimental facts
- 2 Thermomechanics of elastoviscoplastic continua
- 3 Small-strain elastoplasticity
- 4 Problems in perfect elastoplasticity
- 5 Elastoplasticity with strain-hardening
- 6 Elements of limit analysis
- 7 Crack propagation and fracture mechanics
- 8 Elastoplasticity with finite strains
- 9 Homogenization of elastoplastic composites
- 10 Coupling between plasticity and damage
- 11 Numerical solution of plasticity problems
- 12 Experimental study using infrared thermography
- Appendix 1 Thermodynamics of continuous media
- Appendix 2 Convexity
- Appendix 3 Analytic solutions of some problems in elastoplasticity
- Appendix 4 Analytic computation of stress-intensity factors
- Further reading
- Bibliography
- Index
Summary
The present book is an outgrowth of my lecture notes for a graduate course on ‘Plasticity and fracture’ delivered for the past five years to students in Theoretical Mechanics and Applied Mathematics at the Pierre-et-Marie Curie University in Paris. It also corresponds to notes prepared for an intensive course in modern plasticity to be included in a European graduate curriculum in Mechanics. It bears the imprint of a theoretician, but it should be of equal interest to practitioners willing to make an effort on the mathematical side. The prerequisites are standard and include classical (undergraduate) courses in applied analysis and Cartesian tensors, a basic course in continuum mechanics (elasticity and fluid mechanics), and some knowledge of the strength of materials (for exercises with a practical touch), of numerical methods, and of elementary thermodynamics. More sophisticated thermodynamics and elements of convex analysis, needed for a good understanding of the contents of the book, are recalled in Appendices.
The book deals specifically with what has become known as the mathematical theory of plasticity and fracture as (unduly) opposed to the physical theory of these fields. The first expression is reserved for qualifying the macroscopic, phenomenological approach which proposes equations abstracted from generally accepted experimental facts, studies the adequacy of the consequences drawn from these equations to those facts, cares for the mathematical soundness of these equations (do they have nice properties?), and then, with some confidence, provides useful tools to designers and engineers.
- Type
- Chapter
- Information
- The Thermomechanics of Plasticity and Fracture , pp. xi - xivPublisher: Cambridge University PressPrint publication year: 1992