Description

Book Synopsis

Due to their unique properties, rubber materials are widely used for engineering applications such as tires, engine mounts, seals, shock absorbers, etc. The design of these highly technical parts frequently necessitates a great control of their response and high guarantees of reliability. These objectives are severe because they cover multiple physical phenomena. In addition, the complexity of these parts requires the use of powerful simulation methods such as the finite element method. In this context, the formulation of relevant constitutive equations and the development of relevant algorithms are essential prerequisites for the prediction of the mechanical response of elastomeric parts.

The latest developments concerning constitutive modelling of rubber materials, and more generally the mechanics of elastomers, are collected in the present volume, including: constitutive modelling, physical mechanisms, fatigue and fracture, structural and industrial applications. C

Table of Contents

Foreword

Foreword (Volume 1)

Sponsors

Invited papers

Continuum mechanics models

Micromechanical approaches

Fracture and fatigue

Computational methods

Experiments and characterization

Multiphysics and biomechanics

Industrial applications

Constitutive Models for Rubber V

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A Hardback by Adnane Boukamel, Lucien Laiarinandrasana, Stéphane Méo

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    View other formats and editions of Constitutive Models for Rubber V by Adnane Boukamel

    Publisher: CRC Press
    Publication Date: 8/23/2007 12:00:00 AM
    ISBN13: 9780415454421, 978-0415454421
    ISBN10: 0415454425
    Also in:
    Polymer chemistry Industrial chemistry and chemical engineering

    Description

    Book Synopsis

    Due to their unique properties, rubber materials are widely used for engineering applications such as tires, engine mounts, seals, shock absorbers, etc. The design of these highly technical parts frequently necessitates a great control of their response and high guarantees of reliability. These objectives are severe because they cover multiple physical phenomena. In addition, the complexity of these parts requires the use of powerful simulation methods such as the finite element method. In this context, the formulation of relevant constitutive equations and the development of relevant algorithms are essential prerequisites for the prediction of the mechanical response of elastomeric parts.

    The latest developments concerning constitutive modelling of rubber materials, and more generally the mechanics of elastomers, are collected in the present volume, including: constitutive modelling, physical mechanisms, fatigue and fracture, structural and industrial applications. C

    Table of Contents

    Foreword

    Foreword (Volume 1)

    Sponsors

    Invited papers

    Continuum mechanics models

    Micromechanical approaches

    Fracture and fatigue

    Computational methods

    Experiments and characterization

    Multiphysics and biomechanics

    Industrial applications

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