Fluid–structure interaction within three-dimensional models of an idealized arterial wall

Fluid–structure interaction within three-dimensional models of an idealized arterial wall

The ascending branch of the aorta is one of the most stressed organ of the arterial system. We aim to design a biomechanical model for analysing the aorta dynamics under a shock. The model includes the aorta layers and the influence of the blood pressure. We undertake a three-dimensional modal analy...

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Veröffentlicht in:International journal of engineering science 2014-11, Vol.84, p.113-126
Hauptverfasser: El Baroudi, A., Razafimahery, F., Rakotomanana, L.
Format: Artikel
Sprache:eng
Schlagworte:
Aorta
Arterial wall
Dynamical systems
Dynamics
Finite element method
Fluid mechanics
Fluid-structure interaction
Joining
Mathematical analysis
Mathematical models
Mechanics
Modal analysis
Multilayer
Physics
Three dimensional
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Zusammenfassung:The ascending branch of the aorta is one of the most stressed organ of the arterial system. We aim to design a biomechanical model for analysing the aorta dynamics under a shock. The model includes the aorta layers and the influence of the blood pressure. We undertake a three-dimensional modal analysis of the coupled aorta–blood system. We determine in the present work the coupled natural frequencies and the modes shapes of the system of the aorta and blood. Three models are presented in this study: three-layers model, two-layers model and one layer model. For the analytical solving a potential technique is used to obtain a general solution for an aorta domain. The finite element model is then validated by these original analytical solutions. The results from the proposed method are in good agreement with numerical solutions.
ISSN:0020-7225
1879-2197
DOI:10.1016/j.ijengsci.2014.06.015