A nine degree-of-freedom theoretical model is developed for investigations of the dynamics of a proprotor operating in high inflow axial flight on a cantilever wing. The basic characteristics of the rotor high inflow aerodynamics and the resulting rotor aeroelastic behavior are discussed. The problems of classical whirl flutter, the two-bladed rotor, and the influence of the proprotor on the stability derivatives of the aircraft are treated briefly. The influence of various elements of the theoretical model is discussed, including the modeling used for the blade and wing aerodynamics, and the influence of the rotor lag degree of freedom. The results from tests of two full-scale proprotors - a gimballed, stiff-inplane rotor and a hingeless, soft-inplane rotor - are presented; comparisons with the theoretical results show good correlation. (Author)
Dynamics of Tilting Proprotor Aircraft in Cruise Flight
1974
257 pages
Report
Keine Angabe
Englisch
Dynamics of tilting proprotor aircraft in cruise flight
NTRS | 1974
|Dynamics of tilting proprotor aircraft in cruise flight
TIBKAT | 1974
|