Computational resource requirements, implementation strategies and future directions of FSI for cardiovascular applications are also discussed.ĬFD Cardiovascular mechanics Cardiovascular modeling Computational modeling FEA FSI Finite element analysis Fluid structure interaction Numerical simulations.Ĭopyright © 2020. We explored the utility of FSI to study aneurysms, the hemodynamics of patient anatomies, native and prosthetic heart valve dynamics, flow and hemodynamics of blood pumps, and atherosclerosis. In this study, we conducted a systematic review process of more than 1000 journal articles to investigate the implementation of One-Way and Two-Way FSI for cardiovascular applications. In the last decade, the utilization of FSI has greatly increased in cardiovascular engineering. The use of fluid-structure interaction (FSI) methods overcomes these shortcomings by providing the means to couple the fluid and structural domains. ![]() Join one of our FREE workshops and discover how easy it is to perform realistic FEA to solve your complex engineering challenges. ![]() Learn how to use SPH modelling in Abaqus CAE. Individually, they are unable to resolve the interplay between the solid and fluid domains, and the interplay is integral to the functioning of the system. Free Abaqus Tutorials to build and expand your experience on SIMULIA Abaqus FEA software. ![]() Finite element analysis (FEA) and computational fluid dynamics (CFD) are generally insufficient independently to model the physics of the cardiovascular system.
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