A method is presented for determining shock envelopes and pressure distributions for two-dimensional airfoils at angles of attack sufficiently large to cause shock detachment and subsonic flow over the windward surface of the airfoil. Correlation functions obtained from exact solutions are used to relate the shock standoff distance at the stagnation and sonic points of the body through a suitable choice for the shock shape. The necessary correlation functions were obtained from perfect gas solutions but may be extended to any gas flow for which the normal shock-density ratio can be specified
Use of this analytical parameter, it is shown, highlights the distinction between cases which are do...
The generalized shock-expansion method is applied to obtain solutions to the flow field about pointe...
Pressure distributions and shock shapes on a spherically blunted, 12.84 deg /7 deg on axis biconic a...
Relationship of shock standoff distance, at sonic and stagnation points, to body geometry of blunt b...
The shock expansion method of the NACA TN No. 1143 was used to determine the principal aerodynamic c...
A method for determining shock-wave shapes, stagnation-point location, and flow-field properties for...
Linearized characteristics method, and equivalent body method for predicting flow field about axisym...
A highly accurate approximation and a rapidly convergent numerical procedure are developed for two d...
A method of successive approximations to the ideal flow around airfoils at high supersonic Mach numb...
Formation of shock wave in two dimensional flow field and method for predicting shape and strength o...
Pressure distributions, aerodynamic coefficients, and shock shapes were measured on blunt bodies of ...
Theoretical pressure distributions on nonlifting circular-arc airfoils in two-dimensional flows with...
An approximate method, based on a simplified form of the con-tinuity relation, is developed to predi...
An investigation has been conducted to explore the potential for optimizing airfoil shape at high su...
Pressure distributions for blunt body wind tunnel models at supersonic speeds and angles of attack f...
Use of this analytical parameter, it is shown, highlights the distinction between cases which are do...
The generalized shock-expansion method is applied to obtain solutions to the flow field about pointe...
Pressure distributions and shock shapes on a spherically blunted, 12.84 deg /7 deg on axis biconic a...
Relationship of shock standoff distance, at sonic and stagnation points, to body geometry of blunt b...
The shock expansion method of the NACA TN No. 1143 was used to determine the principal aerodynamic c...
A method for determining shock-wave shapes, stagnation-point location, and flow-field properties for...
Linearized characteristics method, and equivalent body method for predicting flow field about axisym...
A highly accurate approximation and a rapidly convergent numerical procedure are developed for two d...
A method of successive approximations to the ideal flow around airfoils at high supersonic Mach numb...
Formation of shock wave in two dimensional flow field and method for predicting shape and strength o...
Pressure distributions, aerodynamic coefficients, and shock shapes were measured on blunt bodies of ...
Theoretical pressure distributions on nonlifting circular-arc airfoils in two-dimensional flows with...
An approximate method, based on a simplified form of the con-tinuity relation, is developed to predi...
An investigation has been conducted to explore the potential for optimizing airfoil shape at high su...
Pressure distributions for blunt body wind tunnel models at supersonic speeds and angles of attack f...
Use of this analytical parameter, it is shown, highlights the distinction between cases which are do...
The generalized shock-expansion method is applied to obtain solutions to the flow field about pointe...
Pressure distributions and shock shapes on a spherically blunted, 12.84 deg /7 deg on axis biconic a...