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Tables of Contents for Constitutive Models for Rubber II
Chapter/Section Title
Page #
Page Count
Foreword
Foreword to the proceedings of the First European Conference on Constitutive Models for Rubber/Vienna/Austria 1999
ix
Statistically based models
Statistical-mechanical basis of constitutive models for heterogeneous rubber materials
3
8
Modeling of soft matter viscoelasticity for FE-applications
11
10
A model to describe filler effects in rubber
21
6
Softening behaviour of elastomeric media after loading in changing directions
27
10
Phenomenological models
Thermodynamics modelling of internal friction and hysteresis of elastomers
37
8
Description of the deformation behaviour of filled elastomers taking into account energy elastic contributions
45
12
Rheology & viscoelasticity
A generalisation of the Mooney-Rivlin model to finite linear viscoelasticity
57
8
Finite viscoelasticity: A physical approach based on relaxation spectra, fractional derivatives and process-dependent viscosities
65
8
A constitutive model of elastomers in the case of cyclic load with amplitude-dependent internal damping
73
6
FE implementation of viscoelastic constitutive stress-strain relations involving fractional time derivatives
79
14
Physically motivated models
A tube concept in finite viscoelasticity of rubbers
93
12
A micromechanical model for stress-softening of rubbery polymers
105
12
A physically-based constitutive model for the finite viscoelastic deformations in rubbery polymers based on a directly evaluated micro-macro-transition
117
12
Softening effects
A simple three-dimensional model for the Mullins effect in rubber
129
8
The effect of softening phenomena in filled rubber during inhomogeneous loading
137
12
Mullins' effect on rubber materials: Damage model driving parameters
149
12
Experimental investigations
Investigations on the detachment process of a rubber matrix from a rigid inclusion
161
4
Measurement and modelling of friction of rubber
165
8
The creep and recovery of filled and unfilled elastomers
173
6
Evaluation of constitutive models using surface NMR
179
8
Aging, damage, fatigue
Fracture mechanics based failure criteria of rubber and their use for FEM based component design
187
6
Stress softening in rubber-like solids subjected to cavitation damage
193
12
Oxidative aging of filled elastomers
205
8
Criteria for fatigue crack nucleation in rubber under multiaxial loading
213
10
Specific effects
Simulation of effective rubber properties during cross-linking using a simple network model
223
8
Numerical methods
A method to analyse the non-linear dynamic behaviour of carbon-black-filled rubber components using standard FE-codes
231
6
On the numerical modelling of the thermo-mechanical material behaviour of rubber-like polymers
237
12
Parameter identification
Parameter identification with a direct search method using finite elements
249
8
Determination of rubber material properties for finite element analysis from actual products
257
4
A fitting procedure for viscoelastic-elastoplastic material models
261
6
Identification of the mechanical parameters linked to a visco-hyperelastic model: Application to a class of elastomers
267
10
Optimization of components
Optimization of elastomer-metal components with TOSCA and ABAQUS
277
8
Industrial applications
Modelling the audible stiffness of preloaded vibration isolators
285
12
Simulation of road excited tyre vibrations
297
6
Modelling of softening effects in elastomeric material and its application in tire computations
303
4
Author index
307