Book contents
- Frontmatter
- Contents
- Preface
- 1 Elements of the Theory of Finite Elasticity
- 2 Hyperelastic Bell Materials: Retrospection, Experiment, Theory
- 3 Universal Results in Finite Elasticity
- 4 Equilibrium Solutions for Compressible Nonlinearly Elastic Materials
- 5 Exact Integrals and Solutions for Finite Deformations of the Incompressible Varga Elastic Materials
- 6 Shear
- 7 Elastic Membranes
- 8 Elements of the Theory of Elastic Surfaces
- 9 Singularity Theory and Nonlinear Bifurcation Analysis
- 10 Perturbation Methods and Nonlinear Stability Analysis
- 11 Nonlinear Dispersive Waves in a Circular Rod Composed of a Mooney-Rivlin Material
- 12 Strain-energy Functions with Multiple Local Minima: Modeling Phase Transformations Using Finite Thermo-elasticity
- 13 Pseudo-elasticity and Stress Softening
- Subject Index
Preface
Published online by Cambridge University Press: 09 October 2009
- Frontmatter
- Contents
- Preface
- 1 Elements of the Theory of Finite Elasticity
- 2 Hyperelastic Bell Materials: Retrospection, Experiment, Theory
- 3 Universal Results in Finite Elasticity
- 4 Equilibrium Solutions for Compressible Nonlinearly Elastic Materials
- 5 Exact Integrals and Solutions for Finite Deformations of the Incompressible Varga Elastic Materials
- 6 Shear
- 7 Elastic Membranes
- 8 Elements of the Theory of Elastic Surfaces
- 9 Singularity Theory and Nonlinear Bifurcation Analysis
- 10 Perturbation Methods and Nonlinear Stability Analysis
- 11 Nonlinear Dispersive Waves in a Circular Rod Composed of a Mooney-Rivlin Material
- 12 Strain-energy Functions with Multiple Local Minima: Modeling Phase Transformations Using Finite Thermo-elasticity
- 13 Pseudo-elasticity and Stress Softening
- Subject Index
Summary
The subject of Finite Elasticity (or Nonlinear Elasticity), although many of its ingredients were available much earlier, really came into its own as a discipline distinct from the classical theory of linear elasticity as a result of the important developments in the theory from the late 1940s associated with Rivlin and the collateral developments in general Continuum Mechanics associated with the Truesdell school during the 1950s and 1960s. Much of the impetus for the theoretical developments in Finite Elasticity came from the rubber industry because of the importance of (natural) rubber in many engineering components, not least car tyres and bridge and engine mountings. This impetus is maintained today with an ever increasing use of rubber (natural and synthetic) and other polymeric materials in a broader and broader range of engineering products. The importance of gaining a sound theoretically-based understanding of the thermomechanical behaviour of rubber was only too graphically illustrated by the role of the rubber O-ring seals in the Challenger shuttle disaster. This extreme example serves to underline the need for detailed characterization of the mechanical properties of different rubber like materials, and this requires not just appropriate experimental data but also the rigorous theoretical framework for analyzing those data. This involves both elasticity theory per se and extensions of the theory to account for inelastic effects.
Over the last few years the applications of the theory have extended beyond the traditional regime of rubber mechanics and they now embrace other materials capable of large elastic strains.
- Type
- Chapter
- Information
- Nonlinear ElasticityTheory and Applications, pp. ix - xiiPublisher: Cambridge University PressPrint publication year: 2001