DEM Simulation of the Seismic Response of Shallow Foundation on Liquefiable Soil
Publication: Geotechnical Earthquake Engineering and Soil Dynamics IV
Abstract
This paper presents an attempt to model the seismic response of a spread footings system founded on liquefiable granular soil deposit using a three-dimensional transient fully-coupled hydromechanical model and taking into account the effects of soil-foundation interaction. The porous soil medium is modeled as a mixture of two interpenetrating phases, namely the fluid phase (water) and the particulate solid phase. The fluid is idealized as a continuum by using averaged Navier-Stokes equations that accounts for the presence of the solid particles. The Discrete Element Method (DEM) is employed to model the assemblage of these particles. The interphase momentum transfer is modeled using established relationship that accounts for the dynamic change in porosity. The spread footing is modeled as a rigid block and its motion is described by the resultant forces and moments acting upon it. A computational simulation is conducted to investigate the response of spread-footings on a saturated granular deposit when subjected to a dynamic excitation. Results of the conducted simulation showed that the foundation sustained excessive settlement as the ground shaking progressed and the underlying soil liquefied. The conducted simulation appears to capture essential dynamic response patterns typically observed in such systems.
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Copyright
© 2008 American Society of Civil Engineers.
History
Published online: Jun 20, 2012
ASCE Technical Topics:
- Clays
- Discrete element method
- Earthquake engineering
- Engineering fundamentals
- Foundations
- Geomechanics
- Geotechnical engineering
- Granular soils
- Methodology (by type)
- Models (by type)
- Numerical methods
- Seismic effects
- Seismic tests
- Shallow foundations
- Soil dynamics
- Soil liquefaction
- Soil mechanics
- Soil properties
- Soil-structure interaction
- Soils (by type)
- Tests (by type)
- Three-dimensional models
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