A multiphase model with hypoplastic formulation of the solid phase and its application to earthquake engineering problems Konstantin Meskouris, RWTH Aachen University, Aachen, Germany Stefan Holler, Airbus Deutschland GmbH, Hamburg, Germany

ABSTRACT: In the present paper a multiphase model including a hypoplastic formulation of the solid phase is presented and its application to earthquake engineering problems discussed. The macroscopic soil model, which is based on the theory of porous media, comprises three distinct phases namely, solid, fluid and gas phase. For each of these the compressibility of the respective medium is taken into account in the mathematical formulation of the model. The solid phase is modelled using the hypoplastic constitutive equation including intergranular strain to allow for a realistic description of material behaviour of cohesionless soils even under cyclic loading. The model was implemented into the finite element package ANSYS via the user interface and also allows the simulation of soil-structure interaction problems.