Modifications to an existing three-dimensional, implicit, upwind Euler/Navier-Stokes code (CFL3D Version 2.1) for the aeroelastic analysis of wings are described. These modifications, which were previously added to CFL3D Version 1.0, include the incorporation of a deforming mesh algorithm and the addition of the structural equations of motion for their simultaneous time-integration with the government flow equations. The paper gives a brief description of these modifications and presents unsteady calculations which check the modifications to the code. Euler flutter results for an isolated 45 degree swept-back wing are compared with experimental data for seven freestream Mach numbers which define the flutter boundary over a range of Mach num...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
In the past decade, there has been much activity in the development of computational methods for the...
The Structural Dynamics Division at NASA Langley Research Center has started a wind tunnel activity ...
Modifications to the CFL3D three dimensional unsteady Euler/Navier-Stokes code for the aeroelastic a...
An unsteady, 3D, implicit upwind Euler/Navier-Stokes algorithm is here used to compute the flutter c...
Modifications to a three dimensional, implicit, upwind, unstructured-grid Euler code for aeroelastic...
Aeroelastic tests require extensive cost and risk. An aeroelastic wind-tunnel experiment is an order...
An efficient and accurate transonic unsteady aerodynamic method is needed for predicting flight load...
The effectiveness of transpiration for simulation of structural deformations in steady and unsteady ...
The current status of computational methods for unsteady aerodynamics and aeroelasticity is reviewed...
A solution procedure was developed to investigate the two-dimensional, one- or two-dimensional flutt...
In transonic flutter problems where shock motion plays an important part, it is believed that accura...
This paper builds on the computational aeroelastic results published previously and generated in sup...
In the last two decades there have been extensive developments in computational unsteady transonic a...
This paper describes the development of an aeroelastic code (TURBO-AE) based on an Euler/Navier-Stok...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
In the past decade, there has been much activity in the development of computational methods for the...
The Structural Dynamics Division at NASA Langley Research Center has started a wind tunnel activity ...
Modifications to the CFL3D three dimensional unsteady Euler/Navier-Stokes code for the aeroelastic a...
An unsteady, 3D, implicit upwind Euler/Navier-Stokes algorithm is here used to compute the flutter c...
Modifications to a three dimensional, implicit, upwind, unstructured-grid Euler code for aeroelastic...
Aeroelastic tests require extensive cost and risk. An aeroelastic wind-tunnel experiment is an order...
An efficient and accurate transonic unsteady aerodynamic method is needed for predicting flight load...
The effectiveness of transpiration for simulation of structural deformations in steady and unsteady ...
The current status of computational methods for unsteady aerodynamics and aeroelasticity is reviewed...
A solution procedure was developed to investigate the two-dimensional, one- or two-dimensional flutt...
In transonic flutter problems where shock motion plays an important part, it is believed that accura...
This paper builds on the computational aeroelastic results published previously and generated in sup...
In the last two decades there have been extensive developments in computational unsteady transonic a...
This paper describes the development of an aeroelastic code (TURBO-AE) based on an Euler/Navier-Stok...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
In the past decade, there has been much activity in the development of computational methods for the...
The Structural Dynamics Division at NASA Langley Research Center has started a wind tunnel activity ...
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