Open AccessPerformance and Vibratory Loads Data from a Wind-Tunnel Test of a Model Helicopter Main-Rotor Blade with a Paddle-Type Tip
Author(s) -
William T. Yeager,
Noonan Jr.,
Singleton Kevin W.,
Wilbur Jeffrey D.,
L Baruzzini Matthew
Publication year - 1997
Publication title -
nasa technical reports server (nasa)
Language(s) - English
Resource type - Reports
DOI - 10.21236/ada406400
Subject(s) - paddle , blade (archaeology) , rotor (electric) , wind tunnel , marine engineering , helicopter rotor , engineering , structural engineering , test data , aerospace engineering , mechanical engineering , software engineering
An investigation was conducted in the Langley Transonic Dynamics Tunnel to obtain data to permit evaluation of paddle-type tip technology for possible use in future U.S. advanced rotor designs. Data were obtained for both a baseline main-rotor blade and a main-rotor blade with a paddle-type tip. The baseline and paddle-type tip blades were compared with regard to rotor performance, oscillatory pitch-link loads, and 4-per-rev vertical fixed-system loads. Data were obtained in hover and forward flight over a nominal range of advance ratios from 0.15 to 0.425. Results indicate that the paddle-type tip offers no performance improvements in either hover or forward flight. Pitch-link oscillatory loads for the paddle-type tip are higher than for the baseline blade, whereas 4-per-rev vertical fixed-system loads are generally lower.
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