Analysis of potential helicopter vibration reduction conceptsSeveral recent helicopter vibration reduction research programs are described. Results of studies of blade design parameters in rotor vibratory response and of an advanced blade design for reduced vibration are examined. An optimization approach to develop a general automated procedure for rotor blade design is described, and analytical results for an articulated rotor operating at a steady 160 kt flight condition are reported. The use of a self-adaptive controller to implement higher harmonic control in closed-loop fashion is addressed, and a computer simulation used to evaluate and compare the performance of alternative algorithms included in the generic active controller is discussed. Results are presented for steady level flight conditions, short-duration maneuvers, blade stresses and rotor performance, blade-appended aeroelastic devices, vibratory airloads, wake-induced blade airloads, and airloads from blade motions, the interaction of rotor and fuselage, and the interaction of rotor and empennage.
Document ID
19860026434
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Landgrebe, A. J. (United Technologies Research Center East Hartford, CT, United States)
Davis, M. W. (United Technologies Research Center East Hartford, CT, United States)