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IUTAM Symposium on Theoretical and Numerical Methods in Continuum Mechanics of Porous Materials

Proceedings of the IUTAM Symposium held at the University of Stuttgart, Germany, September 5–10, 1999

  • Wolfgang Ehlers

Part of the Solid Mechanics and Its Applications book series (SMIA, volume 87)

Table of contents

  1. Front Matter
    Pages i-xxiii
  2. Opening

    1. B. A. Schrefler, H. W. Zhang
      Pages 13-18
  3. Constitutive Modelling

  4. Experiments and Parameter Identification

  5. Numerical Aspects

  6. Poster Session A

  7. Homogenization

    1. J. Widjajakusuma, R. Hilfer
      Pages 113-118
    2. X. Chateau, L. Dormieux
      Pages 125-130
    3. S. C. Baxter, C. T. Herakovich, A. M. Roerden
      Pages 131-136
  8. Biot’s Theory

  9. Flow in Porous Media

    1. M. Paul, R. Hinkelmann, H. Sheta, R. Helmig
      Pages 163-168
    2. A. Scheuermann, I. Vardoulakis, P. Papanastasiou, M. Stavropoulou
      Pages 169-175
  10. Waves in Porous Media I

    1. A. A. Gubaidullin, O. Y. Kuchugurina
      Pages 179-186
    2. A. Cortis, D. M. J. Smeulders, D. Lafarge, M. Firdaouss, J. L. Guermond
      Pages 187-192
  11. Poster Session B

  12. Localization

  13. Extended Models

  14. Micromechanics

    1. J. M. Huyghe, P. M. van Kemenade, L. F. A. Douven, P. H. M. Bovendeerd
      Pages 287-292
  15. Fracture and Damage

  16. Swelling, Drying and Shrinkage

  17. Waves in Porous Media II

    1. A. I. M. Denneman, G. G. Drijkoningen, D. M. J. Smeulders, C. P. A. Wapenaar
      Pages 343-350

About these proceedings

Introduction

During the last decades, continuum mechanics of porous materials has achieved great attention, since it allows for the consideration of the volumetrically coupled behaviour of the solid matrix deformation and the pore-fluid flow. Naturally, applications of porous media models range from civil and environmental engineering, where, e. g. , geote- nical problems like the consolidation problem are of great interest, via mechanical engineering, where, e. g. , the description of sinter materials or polymeric and metallic foams is a typical problem, to chemical and biomechanical engineering, where, e. g. , the complex structure of l- ing tissues is studied. Although these applications are principally very different, they basically fall into the category of multiphase materials, which can be described, on the macroscale, within the framework of the well-founded Theory of Porous Media (TPM). With the increasing power of computer hardware together with the rapidly decreasing computational costs, numerical solutions of complex coupled problems became possible and have been seriously investigated. However, since the quality of the numerical solutions strongly depends on the quality of the underlying physical model together with the experimental and mathematical possibilities to successfully determine realistic material parameters, a successful treatment of porous materials requires a joint consideration of continuum mechanics, experimental mechanics and numerical methods. In addition, micromechanical - vestigations and homogenization techniques are very helpful to increase the phenomenological understanding of such media.

Keywords

Metall composite composite material continuum mechanics damage fracture mechanics micromechanics modeling numerical methods polymer porous media

Editors and affiliations

  • Wolfgang Ehlers
    • 1
  1. 1.Institute of Applied MechanicsUniversity of StuttgartGermany

Bibliographic information

  • DOI https://doi.org/10.1007/0-306-46953-7
  • Copyright Information Kluwer Academic Publishers 2002
  • Publisher Name Springer, Dordrecht
  • eBook Packages Springer Book Archive
  • Print ISBN 978-0-7923-6766-6
  • Online ISBN 978-0-306-46953-4
  • Series Print ISSN 0925-0042
  • Buy this book on publisher's site