An F-18 aircraft was modified with wingtip instrumentation pods for use in NASA's high-angle-of-attack research program. Ground vibration and flight flutter testing were performed to clear an acceptable flight envelope for the aircraft. Flight test utilized atmospheric turbulence for structural excitation; the aircraft displayed no adverse aeroelastic trends within the envelope tested. The data presented in this report include mode shapes from the ground vibration and estimates of frequency and damping as a function of Mach number
Wind-tunnel flutter investigations at Mach numbers up to 0.30 have been conducted on a 40 degree swe...
Aeroelasticity is a big issue in flight testing when it comes to external installations on the aircr...
The decoupler pylon is a passive wing/store flutter suppression device. It was modified to reduce fr...
The NASA single-seat F-16XL aircraft was modified by the addition of a glove to the left wing. Vibra...
Flight flutter-test results of the first aeroelastic research wing (ARW-1) of NASA's drones for aero...
An F-14A aircraft was modified for use as the test-bed aircraft for the variable-sweep transition fl...
The envelope expansion, flight flutter tests of a modified OV-10A aircraft are described. For the wa...
The Skyrocket II is an all composite constructed experimental prototype airplane. A flutter clearanc...
The drones for aerodynamic and structural testing (DAST) project was designed to control flutter act...
Flight flutter testing is an integral part of flight envelope clearance. This paper discusses advanc...
A research excitation system was test flown at the NASA Dryden Flight Research Facility on the two-s...
A complete ground vibration and aeroelastic analysis was made of a modified version of the Grumman A...
In response to the concerns of the aeroelastic community, NASA Dryden Flight Research Center, Edward...
A ground vibration test was conducted on a Lockheed JetStar airplane that had been modified for the ...
This paper reviews the test techniques developed over the last several decades for flight flutter te...
Wind-tunnel flutter investigations at Mach numbers up to 0.30 have been conducted on a 40 degree swe...
Aeroelasticity is a big issue in flight testing when it comes to external installations on the aircr...
The decoupler pylon is a passive wing/store flutter suppression device. It was modified to reduce fr...
The NASA single-seat F-16XL aircraft was modified by the addition of a glove to the left wing. Vibra...
Flight flutter-test results of the first aeroelastic research wing (ARW-1) of NASA's drones for aero...
An F-14A aircraft was modified for use as the test-bed aircraft for the variable-sweep transition fl...
The envelope expansion, flight flutter tests of a modified OV-10A aircraft are described. For the wa...
The Skyrocket II is an all composite constructed experimental prototype airplane. A flutter clearanc...
The drones for aerodynamic and structural testing (DAST) project was designed to control flutter act...
Flight flutter testing is an integral part of flight envelope clearance. This paper discusses advanc...
A research excitation system was test flown at the NASA Dryden Flight Research Facility on the two-s...
A complete ground vibration and aeroelastic analysis was made of a modified version of the Grumman A...
In response to the concerns of the aeroelastic community, NASA Dryden Flight Research Center, Edward...
A ground vibration test was conducted on a Lockheed JetStar airplane that had been modified for the ...
This paper reviews the test techniques developed over the last several decades for flight flutter te...
Wind-tunnel flutter investigations at Mach numbers up to 0.30 have been conducted on a 40 degree swe...
Aeroelasticity is a big issue in flight testing when it comes to external installations on the aircr...
The decoupler pylon is a passive wing/store flutter suppression device. It was modified to reduce fr...