Computational modelling of dynamic fluid–structure interaction (DFSI) is a considerable challenge. Our approach to this class of problems involves the use of a single software framework for all the phenomena involved, employing finite volume methods on unstructured meshes in three dimensions. This method enables time and space accurate calculations in a consistent manner. One key application of DFSI simulation is the analysis of the onset of flutter in aircraft wings, where the work of Yates et al. [Measured and Calculated Subsonic and Transonic Flutter Characteristics of a 45° degree Sweptback Wing Planform in Air and Freon-12 in the Langley Transonic Dynamic Tunnel. NASA Technical Note D-1616, 1963] on the AGARD 445.6 wing planform stil...
Transonic aeroelastic analysis at the design level relies on linear panel methods, such as the Doubl...
Motivated by micro air vehicle applications, a fluid-structure coupling procedure between a Navier-S...
This paper shows fluid structure interaction simulations of a highly flexible wing at various flow c...
Computational modelling of dynamic fluid–structure interaction (DFSI) is a considerable challenge. O...
A three-dimensional finite volume, unstructured mesh (FV-UM) method for dynamic fluid–structure inte...
A three-dimensional finite volume, unstructured mesh (FV-UM) method for dynamic fluid–structure inte...
Fluid structure interaction, as applied to flexible structures, has wide application in diverse area...
A new unsteady aerodynamic modeling methodology for calculating transonic flutter characteristics is...
The interaction between a flexible structure and the surrounding fluid gives rise to a variety of ph...
The maturity of simulation codes for aerodynamics (CFD) and structures (CSD) now leads to high fidel...
For an accurate prediction of the steady and unsteady behaviour of an aircraft it is necessary to ta...
This paper builds on the computational aeroelastic results published previously and generated in sup...
This paper gives an overview of the numerical procedures which are nowadays used at Dipartimento di ...
An integrated computational uid dynamics (CFD) and computational structural dynamics (CSD) method i...
A new ROM for a CFD based flutter analysis at transonic and separated flow conditions is presented. ...
Transonic aeroelastic analysis at the design level relies on linear panel methods, such as the Doubl...
Motivated by micro air vehicle applications, a fluid-structure coupling procedure between a Navier-S...
This paper shows fluid structure interaction simulations of a highly flexible wing at various flow c...
Computational modelling of dynamic fluid–structure interaction (DFSI) is a considerable challenge. O...
A three-dimensional finite volume, unstructured mesh (FV-UM) method for dynamic fluid–structure inte...
A three-dimensional finite volume, unstructured mesh (FV-UM) method for dynamic fluid–structure inte...
Fluid structure interaction, as applied to flexible structures, has wide application in diverse area...
A new unsteady aerodynamic modeling methodology for calculating transonic flutter characteristics is...
The interaction between a flexible structure and the surrounding fluid gives rise to a variety of ph...
The maturity of simulation codes for aerodynamics (CFD) and structures (CSD) now leads to high fidel...
For an accurate prediction of the steady and unsteady behaviour of an aircraft it is necessary to ta...
This paper builds on the computational aeroelastic results published previously and generated in sup...
This paper gives an overview of the numerical procedures which are nowadays used at Dipartimento di ...
An integrated computational uid dynamics (CFD) and computational structural dynamics (CSD) method i...
A new ROM for a CFD based flutter analysis at transonic and separated flow conditions is presented. ...
Transonic aeroelastic analysis at the design level relies on linear panel methods, such as the Doubl...
Motivated by micro air vehicle applications, a fluid-structure coupling procedure between a Navier-S...
This paper shows fluid structure interaction simulations of a highly flexible wing at various flow c...