With increasing size and flexibility of new transport aircraft, aeroelastic effects become more and more a limiting factor. Specially flutter safety has to be taken into account from the beginning of the design process because the elimination of flutter problems in a late design stage should be avoided. Thus aerolasticians need fast numerical methods for flutter predictions during design
A computational method to perform transonic aeroelastic and aeroservoelastic calculations in the tim...
Aerodynamic simulations were performed in order to compute the unsteady load response of the NLR 730...
Three different levels of unsteady CFD methods are used for transonic aeroelastic computations at DL...
The flutter is a dangerous aeroelastic instability that can cause dramatic failures. It is important...
This paper deals with the usage of the TDLM in the Fairchild Dornier 728JET program, the first compl...
For assessment of the applicability of the Transonic Doublet Lattice Method (TDLM) to transonic flut...
© 2019 by Max Opgenoord, Mark Drela, and Karen Willcox. Transonic aeroelasticity is an important con...
A new ROM for a CFD based flutter analysis at transonic and separated flow conditions is presented. ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
For an accurate prediction of the steady and unsteady behaviour of an aircraft it is necessary to ta...
The paper presents the application of computational aeroelasticity (CA) methods to the analysis of a...
This dissertation deals with the instability, known as flutter, of the lifting and control surfaces ...
In this paper, a Transonic Doublet Lattice Method (TDLM) for calculating unsteady transonic pressure...
In order to investigate aeroelastic aspects of engine/airframe integration, a simulation chain is se...
Computational aeroelasticity is vital to modern aircraft design, as common objectives and aeroelasti...
A computational method to perform transonic aeroelastic and aeroservoelastic calculations in the tim...
Aerodynamic simulations were performed in order to compute the unsteady load response of the NLR 730...
Three different levels of unsteady CFD methods are used for transonic aeroelastic computations at DL...
The flutter is a dangerous aeroelastic instability that can cause dramatic failures. It is important...
This paper deals with the usage of the TDLM in the Fairchild Dornier 728JET program, the first compl...
For assessment of the applicability of the Transonic Doublet Lattice Method (TDLM) to transonic flut...
© 2019 by Max Opgenoord, Mark Drela, and Karen Willcox. Transonic aeroelasticity is an important con...
A new ROM for a CFD based flutter analysis at transonic and separated flow conditions is presented. ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
For an accurate prediction of the steady and unsteady behaviour of an aircraft it is necessary to ta...
The paper presents the application of computational aeroelasticity (CA) methods to the analysis of a...
This dissertation deals with the instability, known as flutter, of the lifting and control surfaces ...
In this paper, a Transonic Doublet Lattice Method (TDLM) for calculating unsteady transonic pressure...
In order to investigate aeroelastic aspects of engine/airframe integration, a simulation chain is se...
Computational aeroelasticity is vital to modern aircraft design, as common objectives and aeroelasti...
A computational method to perform transonic aeroelastic and aeroservoelastic calculations in the tim...
Aerodynamic simulations were performed in order to compute the unsteady load response of the NLR 730...
Three different levels of unsteady CFD methods are used for transonic aeroelastic computations at DL...