Development and validation of bubble dynamics models for Hydrodynamic Ram event in fuel tanks
Thomas Fourest
Theses
tel-01264361v2
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Simulation numérique de forces de succion lors d'impacts hydrodynamiques par une méthode de couplage Euler Lagrange
Mathieu Goron
,
Bertrand Langrand
,
Nicolas Jacques
,
Thomas Fourest
,
Alain Tassin
25e Congrès Français de Mécanique (CFM 2022) , Aug 2022, Nantes, France
Conference papers
hal-03837705v1
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Comparison of Keller-Miksis model and finite element bubble dynamics simulations in a confined medium. Application to the hydrodynamic ram
Thomas Fourest
,
Éric Deletombe
,
Vincent Faucher
,
M. Arrigoni
,
Jacques Dupas
,
et al.
Journal articles
hal-01664736v1
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Simulation of water entry–exit problems highlighting suction phenomena by coupled Eulerian–Lagrangian approach
M. Goron
,
Bertrand Langrand
,
Nicolas Jacques
,
Thomas Fourest
,
Alan Tassin
,
et al.
Journal articles
hal-04060396v1
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Confined Rayleigh-Plesset equation for Hydrodynamic Ram analysis in thin-walled containers under ballistic impacts
Thomas Fourest
,
Jean-Marc Laurens
,
Éric Deletombe
,
Jacques Dupas
,
M. Arrigoni
Journal articles
hal-01126634v1
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Assessment of coupled lagrangian Eulerian finite element simulations to model suction forces during hydrodynamic impacts
Mathieu Goron
,
Bertrand Langrand
,
Thomas Fourest
,
Nicolas Jacques
,
Alan Tassin
High Performance and Optimum Design of Structures and Materials V , 209,
WIT Press , pp.103-114, 2022, WIT Transactions on The Built Environment, 978-1-78466-472-5.
⟨10.2495/HPSU220101⟩
Book sections
hal-03829111v1
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