Add to ORKGExperimental transonic flutter results are presented for a simplified 1/50 size, aspect ratio 1.77, wind tunnel model of an arrow wing design. Flutter results are presented for two configurations; namely, one with and one without a ventral fin mounted at the 0.694 semispan station. Results are presented for both configurations trimmed to zero lift and in a lifting condition at angles of attack up to 4 deg. The results show that the flutter characteristics of both configurations are similar to those usually observed. Increasing angle of attack reduces the flutter dynamic pressure by a small amount (about 13 percent maximum) for both configurations. The addition of the fin to the basic wing increases the flutter dynamic pressure. Calculated r...
Some experimental flutter results are presented over a Mach number range from about 0.70 to 0.95 for...
Use of a supercritical airfoil can adversely affect wing flutter speeds in the transonic range. As a...
Present flutter analysis methods do not accurately predict the flutter speeds in the transonic flow ...
Some early experimental results from a combined experimental and analytical study being conducted at...
A 1/20-size, low-speed flutter model of the SCAT-15F complete airplane was tested on cables to simul...
An experimental and analytical study was conducted at Mach 0.7 to investigate the effects of spanwis...
A flutter test of a low-aspect-ratio rectangular wing was conducted in the Langley Transonic Dynamic...
A transonic flutter investigation was made of elastically and dynamically scaled models of the tee-t...
Flutter characteristics of a cantilevered high aspect ratio wing with winglet were investigated. The...
An investigation of the flutter characteristics of a series of thin cantilever wings having taper ra...
Transonic flutter and buffet results obtained from wind-tunnel tests of a low aspect ratio semispan ...
The model was a 1/6.5-size, semipan version of a wing proposed for an executive-jet-transport airpla...
The flutter model represented the aft fuselage and empennage of a proposed supersonic transport airp...
Transonic flutter characteristics of three geometrically similar delta-wing models were experimental...
The effects of deployment angle and size of symmetrically mounted upper-surface and lower-surface sp...
Some experimental flutter results are presented over a Mach number range from about 0.70 to 0.95 for...
Use of a supercritical airfoil can adversely affect wing flutter speeds in the transonic range. As a...
Present flutter analysis methods do not accurately predict the flutter speeds in the transonic flow ...
Some early experimental results from a combined experimental and analytical study being conducted at...
A 1/20-size, low-speed flutter model of the SCAT-15F complete airplane was tested on cables to simul...
An experimental and analytical study was conducted at Mach 0.7 to investigate the effects of spanwis...
A flutter test of a low-aspect-ratio rectangular wing was conducted in the Langley Transonic Dynamic...
A transonic flutter investigation was made of elastically and dynamically scaled models of the tee-t...
Flutter characteristics of a cantilevered high aspect ratio wing with winglet were investigated. The...
An investigation of the flutter characteristics of a series of thin cantilever wings having taper ra...
Transonic flutter and buffet results obtained from wind-tunnel tests of a low aspect ratio semispan ...
The model was a 1/6.5-size, semipan version of a wing proposed for an executive-jet-transport airpla...
The flutter model represented the aft fuselage and empennage of a proposed supersonic transport airp...
Transonic flutter characteristics of three geometrically similar delta-wing models were experimental...
The effects of deployment angle and size of symmetrically mounted upper-surface and lower-surface sp...
Some experimental flutter results are presented over a Mach number range from about 0.70 to 0.95 for...
Use of a supercritical airfoil can adversely affect wing flutter speeds in the transonic range. As a...
Present flutter analysis methods do not accurately predict the flutter speeds in the transonic flow ...