A theoretical and experimental investigation was conducted to assess the effect of leading-edge load constraints on supersonic wing design and performance. In the effort to delay flow separation and the formation of leading-edge vortices, two constrained, linear-theory optimization approaches were used to limit the loadings on the leading edge of a variable-sweep planform design. Experimental force and moment tests were made on two constrained camber wings, a flat uncambered wing, and an optimum design with no constraints. Results indicate that vortex strength and separation regions were mildest on the severely and moderately constrained wings
A survey of research on drag-due-to-lift minimization at supersonic speeds, including a study of the...
The method of superposition of linearized conical flows has been applied to the calculation of the a...
An investigation was conducted in the Langley low turbulence pressure tunnel to determine the effect...
Wings, designed for leading edge thrust at supersonic speeds, were investigated in the Unitary Plan ...
For the past 3 years, a research program pertaining to the study of wing leading edge vortices at su...
The Boeing Commercial Airplane Company developed an inviscid three-dimensional lifting surface metho...
Experimental/theoretical correlations are presented which show that significant levels of leading ed...
A method of predicting forces, moments, and detailed surface pressures on thin, sharp-edged wings wi...
An assessment of the influence of airfoil geometry on delta wing leading edge vortex flow and vortex...
This paper describes methodology and an associated computer program for the design of wing lifting s...
Results of the experimental validation are presented for the three dimensional cambered wing which w...
Detailed pressure measurements were made on a flat semispan swept wing with a rounded leading edge a...
An experimental investigation of the aerodynamic characteristics of thin, moderately swept fighter w...
A series of arrow wings employing various degrees of twist and camber were tested in the Langley 4- ...
Some of the theoretical and experimental research conducted at the NASA Langley Research Center is p...
A survey of research on drag-due-to-lift minimization at supersonic speeds, including a study of the...
The method of superposition of linearized conical flows has been applied to the calculation of the a...
An investigation was conducted in the Langley low turbulence pressure tunnel to determine the effect...
Wings, designed for leading edge thrust at supersonic speeds, were investigated in the Unitary Plan ...
For the past 3 years, a research program pertaining to the study of wing leading edge vortices at su...
The Boeing Commercial Airplane Company developed an inviscid three-dimensional lifting surface metho...
Experimental/theoretical correlations are presented which show that significant levels of leading ed...
A method of predicting forces, moments, and detailed surface pressures on thin, sharp-edged wings wi...
An assessment of the influence of airfoil geometry on delta wing leading edge vortex flow and vortex...
This paper describes methodology and an associated computer program for the design of wing lifting s...
Results of the experimental validation are presented for the three dimensional cambered wing which w...
Detailed pressure measurements were made on a flat semispan swept wing with a rounded leading edge a...
An experimental investigation of the aerodynamic characteristics of thin, moderately swept fighter w...
A series of arrow wings employing various degrees of twist and camber were tested in the Langley 4- ...
Some of the theoretical and experimental research conducted at the NASA Langley Research Center is p...
A survey of research on drag-due-to-lift minimization at supersonic speeds, including a study of the...
The method of superposition of linearized conical flows has been applied to the calculation of the a...
An investigation was conducted in the Langley low turbulence pressure tunnel to determine the effect...