In this study, a numerical algorithm is developed for simulating the interaction between a fluid and a 2D/axisymmetric hyperelastic body based on a full Eulerian fluid-structure interaction (FSI) method. In this method, the solid volume fraction is used for describing the multicomponent material and the deformation tensor for describing the deformation of the hyperelastic body. The core elements of the simulation method are the constitutive law in the Cauchy stress form and an equation for the transport of the deformation tensor field. A semi-implicit formulation is used for the elastic stress to avoid instability espe-cially for solid with high stiffness. The strain rate has a discontinuity across the fluid/ solid interface. For improving ...
This research analyzes the interaction between fibers and the air jets that are used to accelerate t...
This thesis represents a numerical method to solve fluid-structure interaction (FSI) prob- lems wher...
International audienceThis contribution discusses extended physical interface models for fluid–struc...
[[abstract]]In this study, we carry out fluid-structure interaction analysis by integrating the fini...
The present paper deals with the verification of a numerical simulation technique of fluid-structure...
The Stokes flow induced by the motion of an elastic massless filament immersed in a two-dimensional ...
We present a new numerical method to handle fluid-rigid body interaction problems. The analysis is c...
Experiments have shown that a high-enthalpy flow field might lead under certain mechanical constrain...
An algorithm to simulate 3D fluid–structure interaction problems using the finite element technique ...
Fluid structure interaction, as applied to flexible structures, has wide application in diverse area...
The study of Fluid Structure Interaction (FSI) is becoming of great interest in many engineering app...
This project is framed within the study of fluid-structure interaction, one of the newest challenges...
A new method for studying the interaction between an elastic object and a fluid has been developed. ...
The interaction problem of incompressible fluid and incompressible elastic material in the so-called...
This thesis concerns finite element (FE) methods for solving fluid-structure interaction (FSI) probl...
This research analyzes the interaction between fibers and the air jets that are used to accelerate t...
This thesis represents a numerical method to solve fluid-structure interaction (FSI) prob- lems wher...
International audienceThis contribution discusses extended physical interface models for fluid–struc...
[[abstract]]In this study, we carry out fluid-structure interaction analysis by integrating the fini...
The present paper deals with the verification of a numerical simulation technique of fluid-structure...
The Stokes flow induced by the motion of an elastic massless filament immersed in a two-dimensional ...
We present a new numerical method to handle fluid-rigid body interaction problems. The analysis is c...
Experiments have shown that a high-enthalpy flow field might lead under certain mechanical constrain...
An algorithm to simulate 3D fluid–structure interaction problems using the finite element technique ...
Fluid structure interaction, as applied to flexible structures, has wide application in diverse area...
The study of Fluid Structure Interaction (FSI) is becoming of great interest in many engineering app...
This project is framed within the study of fluid-structure interaction, one of the newest challenges...
A new method for studying the interaction between an elastic object and a fluid has been developed. ...
The interaction problem of incompressible fluid and incompressible elastic material in the so-called...
This thesis concerns finite element (FE) methods for solving fluid-structure interaction (FSI) probl...
This research analyzes the interaction between fibers and the air jets that are used to accelerate t...
This thesis represents a numerical method to solve fluid-structure interaction (FSI) prob- lems wher...
International audienceThis contribution discusses extended physical interface models for fluid–struc...