Measurement of ablation in transient hypersonic flows /

Hunt, Dillon C.

January 2001

Thesis (M.E. Sc.)--University of Queensland, 2002. / Includes bibliographical references.

Aerodynamics, Hypersonic.

The use of compliant surface for supersonic flow over a compression ramp /

Fletcher, Alex J. P.

January 2002

Thesis (Ph. D.)--Lehigh University, 2003. / Includes vita. Includes bibliographical references (leaves 175-182).

Aerodynamics, Supersonic.

Motion induced aerodynamics of a pitching delta wing

Vaughan, Jon

January 1997

Current trends in modem combat aircraft design have seen a move towards canard configurations with all moving foreplanes, providing a manoeuvre advantage with reduced stability. At the same time, with rapid advances in the field of assisted flight control and emphasis now placed on computer controlled, fly-by-wire aircraft, there is an unprecedented requirement for detailed knowledge of motion dependent aerodynamics, such as may be experienced on a foreplane undergoing rapid corrective motions. In this study, investigations have been carried out into the rigid body, motion dependent aerodynamics of a 55* delta wing, undergoing small amplitude pitching oscillations. Steady and unsteady surface pressures have been measured on the wing under low speed, pre-stalled conditions, for a range of mean incidence and oscillation frequencies, up to frequencies approximating a full scale foreplane under low speed conditions, such as landing approach. Relationships between the motion of the wing and the unsteady pressures have been identified, and it has been shown that they may not be approximated by a simple quasi-steady model due to significant phase shifts in specific regions of the flow. The lower surface flow is shown to be highly dependent on the effective incidence of the wing. The vortical flow of the upper surface has a more complex response to the pitching motion, with the shear layer and burst motion reacting at different rates. There is also significant attenuation/overshoot and phase in the unsteady loads and moments (obtained by integrating the pressure data) relative to the quasi-steady. These are shown to be highly dependent on the pitching oscillation frequency and the location of the pitch axis. It is suggested that there may be a pitch axis location such that quasi-steady loading may be obtained under oscillatory conditions. Application of the key findings to a simple all moving control surface shows that the stability of the control system is strongly influenced by the pitch axis location.

629.1323

Aerodynamics

AN INVESTIGATION OF THE INFLUENCE OF A FORWARD EJECTED GAS STREAM IN HYPERSONIC FLOW ABOUT BLUNT-BODIES

Tolle, Frederick Francis, 1921-

January 1973

No description available.

Aerodynamics, Hypersonic.

Atmospheric kinetic energy at 500 mb as a function of zonal wave number.

Luistro, Farnacio M.

January 1965

An adequate portrayal of the global distribution of kinetic energy is fundamental to our understanding of the general circulation of the atmosphere. Since there are insufficient wind observations to carry out direct computations it is customary to supplement them with pressure or geopotential height data and to use space and time continuity to obtain analyzed weather maps. [...]

Meteorology.

Aerodynamics.

A direct method for calculating the thrust and torque of a helicopter in vertical ascent

Culwell, Fred Blaylock

05 1900

No description available.

Aerodynamics

Helicopters

Determination of the design parameters for optimum heavily loaded ducted fans

Wright, Terry

12 1900

No description available.

Propellers

Aerodynamics

A method of computing the potential flow on thick wing tips

Raj, Pradeep

12 1900

No description available.

Aerofoils

Aerodynamics

An investigation of pressure drag in transonic flow by the method of hydraulic analogy

Stancil, Robert Thomas

08 1900

No description available.

Drag (Aerodynamics)

Application of the hydraulic analogy to study the performance of three airfoils at subsonic and supersonic speeds

Ryle, Dallas Marlin

08 1900

No description available.

Aerodynamics

Aerofoils