Ph.D. · In progress

Fábio Gaspar Júnior

Immersed Finite-Element Methods for FSI

Profile

Ph.D.

Status

In progress

Date

2025

Length

4 pages

Institution

Universidade Federal do Rio de Janeiro

Advising

Advisors: Anjos, G. R.; McGinty, S.

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Student work

Immersed Finite-Element Methods for FSI

Overview

Immersed Finite-Element Methods for FSI

Advising

Advisors: Anjos, G. R.; McGinty, S.

Research output

2 publications

Journal articles, conference papers and other records associated with this student.

Conference 2

Publications

Conference · 2025 · Proceedings of the 28th International Congress of Mechanical Engineering

Numerical Simulation of a Non-Newtonian Fluid-Solid Interaction

F. G. S. Junior; S. McGinty; G. R. Anjos

No. COB-2025-1028

Keywords: fluid-structure interaction (FSI), non-Newtonian flow, Immersed Finite Element Method (IFEM), numerical simulation, blood flow dynamics.

Understanding a solid interaction into the blood flow has become an important and multidisciplinary research area due to its significance, different mechanisms and fluid-solid characteristics. This field becomes more...

Publication details

Conference · 2024 · Anais of 10th International Symposium on Fluid-Structure Interactions

Computation of Fluid and Rigid Body Interaction Using a New Immersed Finite Element Method

F. Gaspar Junior; N. Mangiavacchi; S. McGinty; G.R. Anjos

Foz do Iguaçu, Brazil

Keywords: Fluid and Rigid body interaction, multiphase flow, Semi-Lagrangian Method, moving mesh, unstructured mesh.

A new method to simulate fluid-structure interaction is proposed based on the immersed Finite Element Method (iFEM), where no additional external volume force is required to account for the structure-to-fluid...

Publication details