A double-slotted rudder (DSR) proposed for an advanced medium STOL transport (AMST) was tested against the same rudder with the slots closed. Multi-element airfoil theory and its application to a DSR was reviewed. Various design criteria for slotted airfoils were discussed. The tests were performed in a 7 X 10 foot wind tunnel at a dynamic pressure of 17.0 psf and a nominal Reynolds number of 2,000,000. The rudder was tested in 10 degree increments of deflection up to a maximum of 40 degrees, and at sidewash angles varying from -10 to +10 degrees. The DSR showed a 60% increase in side force over the plain double-hinged rudder which was the next best performing rudder configuration. The side force versus sidewash angle curve was linear. A rudder deflection schedule was devised which produces nearly linear side forces and minimum drag. The L/D polar of the DSR was significantly better than those of other configurations. No adverse aerodynamic properties were observed that would preclude the use of a DSR on an AMST. (Author)
Wind Tunnel Test of a Double-slotted Rudder
1973
154 pages
Report
Keine Angabe
Englisch
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