Some of the testing techniques developed for transonic cryogenic tunnels are presented. Techniques are emphasized which required special development or were unique because of the opportunities offered by cryogenic operation. Measuring the static aerodynamic coefficients normally used to determine component efficiency is discussed. The first topic is testing of two dimensional airfoils at transonic Mach numbers and flight values of Reynolds number. Three dimensional tests of complete configurations and sidewall mounted wings are also described. Since flight Reynolds numbers are of interest, free transition must be allowed. A discussion is given of wind tunnel and model construction effects on transition location. Time dependent phenomena, fluid mechanics, and measurement techniques are examined. The time dependent, or unsteady, aerodynamic test techniques described include testing for flutter, buffet, and oscillating airfoil characteristics. In describing non-intrusive laser techniques, discussions are given regarding optical access, seeding, forward scatter lasers, two-spot lasers, and laser holography. Methods of detecting transition and separation are reported and a new type of skin friction balance is described.
Test Techniques for Cryogenic Wind Tunnels
1989
12 pages
Report
Keine Angabe
Englisch
Laboratory & Test Facility Design & Operation , Test Facilities & Equipment , Cryogenic wind tunnels , Transonic wind tunnels , Wind tunnel tests , Airfoils , Fluid mechanics , Skin friction , Unsteady aerodynamics , Wind tunnel models , Wings , Aerodynamic characteristics , Aerodynamic coefficients , Buffeting , Cryogenics , Flutter , Holography , Mach number , Oscillations , Reynolds number
Test techniques for cryogenic wind tunnels
NTRS | 1989
|Tema Archiv | 1980
NTIS | 1980
NTRS | 1989
|A survey of cryogenic wind tunnels
NTRS | 1985
|