In cardiovascular research, FSI is expressed by the interaction of the blood with the vessel or the heart. FSI plays a crucial role when the deformation of the boundary, in this case the vessel wall, cannot be neglected. Arterial blood flow and wave propagation in liquid filled vessels has been investigated by many researchers. Their work comprises computational, theoretical and experimental investigations and will be outlined below. This paper presents the development and validation of an arterial blood flow model. The model has been developed using finite elements and the fluid and the solid are coupled using the ALE method. This method allows moving boundaries without the need for the mesh movement to follow the material. In this paper b...
peer reviewedThe mechanical behaviour of the arterial wall was determined theoretically utilizing so...
Computational methods are emerging as powerful tools for quantifying blood flow in arteries for dise...
Abstract Blood velocity and pressure fields in large arteries are greatly influenced by the deformab...
In cardiovascular research, FSI is expressed by the interaction of the blood with the vessel or the ...
International audienceThe aim of the paper is to use Arbitrary Lagrangian Eulerian (ALE) formulation...
Fluid structure interaction (FSI) appears in many areas of engineering, e.g. biomechanics, aerospace...
The numerical tools to simulate blood flow in the cardiovascular system are constantly developing du...
The numerical tools to simulate blood flow in the cardiovascular system are constantly developing du...
Blood velocity and pressure fields in large arteries are greatly influenced by the deformability of ...
AbstractFinite modelling and simulation of the arterial network in the human arm has been presented ...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
peer reviewedThe mechanical behaviour of the arterial wall was determined theoretically utilizing so...
Computational methods are emerging as powerful tools for quantifying blood flow in arteries for dise...
Abstract Blood velocity and pressure fields in large arteries are greatly influenced by the deformab...
In cardiovascular research, FSI is expressed by the interaction of the blood with the vessel or the ...
International audienceThe aim of the paper is to use Arbitrary Lagrangian Eulerian (ALE) formulation...
Fluid structure interaction (FSI) appears in many areas of engineering, e.g. biomechanics, aerospace...
The numerical tools to simulate blood flow in the cardiovascular system are constantly developing du...
The numerical tools to simulate blood flow in the cardiovascular system are constantly developing du...
Blood velocity and pressure fields in large arteries are greatly influenced by the deformability of ...
AbstractFinite modelling and simulation of the arterial network in the human arm has been presented ...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
peer reviewedThe mechanical behaviour of the arterial wall was determined theoretically utilizing so...
Computational methods are emerging as powerful tools for quantifying blood flow in arteries for dise...
Abstract Blood velocity and pressure fields in large arteries are greatly influenced by the deformab...