FINITE STRAIN FINITE ELEMENT FORMULATION OF COUPLED SOLID-FLUID MIXTURE FOR DYNAMIC PROBLEMS

Authors

  • Bhuddarak Charatpangoon
  • Aiko Furukawa
  • Junji Kiyono
  • Shinya Tachibana
  • Tomohide Takeyama
  • Atsushi Iizuka

Keywords:

Finite element, Finite strain, Porous media, Dynamic, Computation

Abstract

Currently, finite element codes for small–strain have been widely applied in geotechnical
engineering problems. However, the limitations of these codes are recognized, especially when the strain is
large. To overthrow such limitations, finite–strain finite element code for porous media is needed. Therefore,
this study aims to implement the finite element code for coupled solid-fluid at finite strain for static and
dynamic problems. Firstly, the governing equation for porous media at finite–strain was introduced. Then,
the mixed formulation of both phases with respect to the reference coordinates by deriving the governing
equations with respect to the reference or current coordinates and by considering the solid and fluid as
separate, was given. At present, the code is developed only for elastic regime as its preliminary step. In this
study, the proposed code has been verified with the static and dynamic problem. And, the result of the finite–
strain finite element code is then compared with the result of the analytical solution and small–strain finite
element code within the small–strain regime. Thereafter, the proposed code was used to estimate the response
of the earthen dam when subjected to a dynamic load. Finally, the results, discussion, and comparison
between small– and finite–strain finite element analyses were presented.

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Published

2018-05-21

How to Cite

Bhuddarak Charatpangoon, Aiko Furukawa, Junji Kiyono, Shinya Tachibana, Tomohide Takeyama, & Atsushi Iizuka. (2018). FINITE STRAIN FINITE ELEMENT FORMULATION OF COUPLED SOLID-FLUID MIXTURE FOR DYNAMIC PROBLEMS. GEOMATE Journal, 15(51), 1–8. Retrieved from https://geomatejournal.com/geomate/article/view/999