Add to ORKGTwo aft underwing nacelles housing afterburning J85 engines were added to an F106 to study exhaust nozzles in flight at Mach numbers up to 1.3. Installation effects were determined for several nozzles by comparing flight data to data from an isolated wind tunnel model. Reynolds number effects were studied at subsonic flight speeds for nozzles intended for use with afterburning turbofan engines. A wide range of Reynolds number was obtained by flying the F106 over a range of altitude and by using 5 and 22% wind tunnel models of the F106. A contoured nozzle had a boattail drag as low as that of a longer circular arc nozzle over the Reynolds number range studied
Thrust measurement system and aerodynamic drag effects of underwing J-85 engine nacelles on F-106 ai...
An investigation to determine the effect of forward speed on the exhaust noise from a conical ejecto...
Static pressure coefficient distributions on the forebody, afterbody, and nozzles of a 1/12 scale F-...
Several variations of a boattailed shroud for a 10 deg conical plug nozzle were tested using an F-10...
To determine flyover noise and thrust and to investigate whether flight velocity significantly affec...
Airframe installation effects on variable flap ejector nozzle of underwing engine nacell
Wind tunnel tests of airframe installation effects on F-106B scale model with simulated underwing en...
A wind-tunnel investigation was conducted to determine the effects of F101 DFE (derivative fighter e...
A contoured boattail nozzle typical of those used on a twin-engine fighter was tested on an underwin...
Four configurations of rounded shoulder boattail nozzles were tested on an underwing nacelle mounted...
A modified F-106B aircraft with underwing engine nacelles was flight tested to investigate airframe ...
The effect of flight velocity on the jet noise and thrust of a 104-tube suppressor nozzle was invest...
A flight research program was conducted using a modified F-106B aircraft with an underwing-nacelle -...
A circular-arc - conic boattail nozzle, typical of those used on a twin engine fighter, was tested o...
Flight test investigation of effects of variable geometry plug nozzles installed on f-106b aircraf
Thrust measurement system and aerodynamic drag effects of underwing J-85 engine nacelles on F-106 ai...
An investigation to determine the effect of forward speed on the exhaust noise from a conical ejecto...
Static pressure coefficient distributions on the forebody, afterbody, and nozzles of a 1/12 scale F-...
Several variations of a boattailed shroud for a 10 deg conical plug nozzle were tested using an F-10...
To determine flyover noise and thrust and to investigate whether flight velocity significantly affec...
Airframe installation effects on variable flap ejector nozzle of underwing engine nacell
Wind tunnel tests of airframe installation effects on F-106B scale model with simulated underwing en...
A wind-tunnel investigation was conducted to determine the effects of F101 DFE (derivative fighter e...
A contoured boattail nozzle typical of those used on a twin-engine fighter was tested on an underwin...
Four configurations of rounded shoulder boattail nozzles were tested on an underwing nacelle mounted...
A modified F-106B aircraft with underwing engine nacelles was flight tested to investigate airframe ...
The effect of flight velocity on the jet noise and thrust of a 104-tube suppressor nozzle was invest...
A flight research program was conducted using a modified F-106B aircraft with an underwing-nacelle -...
A circular-arc - conic boattail nozzle, typical of those used on a twin engine fighter, was tested o...
Flight test investigation of effects of variable geometry plug nozzles installed on f-106b aircraf
Thrust measurement system and aerodynamic drag effects of underwing J-85 engine nacelles on F-106 ai...
An investigation to determine the effect of forward speed on the exhaust noise from a conical ejecto...
Static pressure coefficient distributions on the forebody, afterbody, and nozzles of a 1/12 scale F-...