The effects of winglets on the aerodynamic forces and moments, loads, and crossflow velocities behind the wing tip are discussed. The results of the investigation indicate that winglets significantly reduce the drag coefficient at lifting conditions. The experiments were conducted in an 8-foot transonic pressure tunnel at Mach numbers from 0.70 to 0.83 and over a lift coefficient range up to 0.65. A semispan model was used
Some experimental flutter results are presented over a Mach number range from about 0.70 to 0.95 for...
A wind-tunnel investigation has been performed to determine the effect of winglets on the induced dr...
The effects of winglets on the static aerodynamic stability characteristics of a KC-135A jet transpo...
Winglets, which are small, nearly vertical, winglike surfaces, substantially reduce drag coefficient...
The effects of winglets and a simple wing-tip extension on the aerodynamic forces and moments and th...
The results of wind tunnel investigations of winglets on four jet transport configurations are prese...
Results of wind tunnel investigations of four jet transport configurations representing both narrow ...
Pressure and spanwise load distributions on a first-generation jet transport semispan model at high ...
Pressure and spanwise load distributions on a first-generation jet transport semispan model at subso...
Pressure and spanwise load distributions on a first-generation jet transport semispan model at a Mac...
The effect of sideslip on winglet loads and selected wing loads was investigated at high and low sub...
A computational study was conducted on two wings, of aspect ratios 1.244 and 1.865, each having 65 d...
A numerical design study was conducted to assess the drag reduction potential of winglets installed ...
A baseline wing and a version of the same wing fitted with winglets were tested. The longitudinal ae...
Wind tunnel test results have been presented herein for a subsonic transport type wing fitted with w...
Some experimental flutter results are presented over a Mach number range from about 0.70 to 0.95 for...
A wind-tunnel investigation has been performed to determine the effect of winglets on the induced dr...
The effects of winglets on the static aerodynamic stability characteristics of a KC-135A jet transpo...
Winglets, which are small, nearly vertical, winglike surfaces, substantially reduce drag coefficient...
The effects of winglets and a simple wing-tip extension on the aerodynamic forces and moments and th...
The results of wind tunnel investigations of winglets on four jet transport configurations are prese...
Results of wind tunnel investigations of four jet transport configurations representing both narrow ...
Pressure and spanwise load distributions on a first-generation jet transport semispan model at high ...
Pressure and spanwise load distributions on a first-generation jet transport semispan model at subso...
Pressure and spanwise load distributions on a first-generation jet transport semispan model at a Mac...
The effect of sideslip on winglet loads and selected wing loads was investigated at high and low sub...
A computational study was conducted on two wings, of aspect ratios 1.244 and 1.865, each having 65 d...
A numerical design study was conducted to assess the drag reduction potential of winglets installed ...
A baseline wing and a version of the same wing fitted with winglets were tested. The longitudinal ae...
Wind tunnel test results have been presented herein for a subsonic transport type wing fitted with w...
Some experimental flutter results are presented over a Mach number range from about 0.70 to 0.95 for...
A wind-tunnel investigation has been performed to determine the effect of winglets on the induced dr...
The effects of winglets on the static aerodynamic stability characteristics of a KC-135A jet transpo...