The Transonic Dynamics Tunnel (TDT) became in operational in 1960, and since that time has achieved the status of the world's premier wind tunnel for testing large in aeroelastically scaled models at transonic speeds. The facility has many features that contribute to its uniqueness for aeroelastic testing. This paper will briefly describe these capabilities and features, and their relevance to aeroelastic testing. Contributions to specific airplane configurations and highlights from the flutter tests performed in the TDT aimed at investigating the aeroelastic characteristics of these configurations are presented
Transonic flutter and buffet results obtained from wind-tunnel tests of a low aspect ratio semispan ...
Wind-tunnel tests of the T-tail of a wide-body jet airplane were made at Mach numbers up to 1.02. Th...
Flutter wind tunnel test is an important approach of investigation of transonic flutter characterist...
Historical Perspective on Aeroelasticity A LTHOUGH this paper is about the NASA Langley ResearchCent...
Testing of wind-tunnel aeroelastic models is a well established, widely used means of studying flutt...
A historical account of the contributions of the Aeroelasticity Branch (AB) and the Langley Transoni...
By the 1960s, researchers began to investigate the feasibility of using active controls technology (...
The characteristics and capabilities of the two tunnels, that relate to studies in the fields of aer...
The following selected wind tunnel tests were reported on: - Experiments on transonic flutter using ...
This paper discusses the generation and the testing of a wind tunnel model designed for the experime...
The NASA Langley Transonic Dynamics Tunnel has served as a unique national facility for aeroelastic ...
A flutter investigation has been made in the Langley transonic blowdown tunnel at Mach numbers betwe...
A flutter test of a low-aspect-ratio rectangular wing was conducted in the Langley Transonic Dynamic...
In the German Aerospace Center, DLR, an internal project has been launched to investigate different ...
In the recently modified DLR transonic wind tunnel in Goettingen, flutter measurements were performe...
Transonic flutter and buffet results obtained from wind-tunnel tests of a low aspect ratio semispan ...
Wind-tunnel tests of the T-tail of a wide-body jet airplane were made at Mach numbers up to 1.02. Th...
Flutter wind tunnel test is an important approach of investigation of transonic flutter characterist...
Historical Perspective on Aeroelasticity A LTHOUGH this paper is about the NASA Langley ResearchCent...
Testing of wind-tunnel aeroelastic models is a well established, widely used means of studying flutt...
A historical account of the contributions of the Aeroelasticity Branch (AB) and the Langley Transoni...
By the 1960s, researchers began to investigate the feasibility of using active controls technology (...
The characteristics and capabilities of the two tunnels, that relate to studies in the fields of aer...
The following selected wind tunnel tests were reported on: - Experiments on transonic flutter using ...
This paper discusses the generation and the testing of a wind tunnel model designed for the experime...
The NASA Langley Transonic Dynamics Tunnel has served as a unique national facility for aeroelastic ...
A flutter investigation has been made in the Langley transonic blowdown tunnel at Mach numbers betwe...
A flutter test of a low-aspect-ratio rectangular wing was conducted in the Langley Transonic Dynamic...
In the German Aerospace Center, DLR, an internal project has been launched to investigate different ...
In the recently modified DLR transonic wind tunnel in Goettingen, flutter measurements were performe...
Transonic flutter and buffet results obtained from wind-tunnel tests of a low aspect ratio semispan ...
Wind-tunnel tests of the T-tail of a wide-body jet airplane were made at Mach numbers up to 1.02. Th...
Flutter wind tunnel test is an important approach of investigation of transonic flutter characterist...