NASA/Army UH-60A Airloads Program flight test and full-scale UH-60A Airloads wind-tunnel test data are investigated to better understand and predict the chord bending moments, one of the unresolved issues in the UH-60A rotor loads prediction. Effects of the lag damper model are examined with the coupled Helios/Rotorcraft Comprehensive Analysis System (RCAS) by calculating lag damper loads using a nonlinear lag damper model or by applying measured lag damper loads as prescribed external loads. RCAS alone analysis is also performed by prescribing measured airloads from the tests to help identify whether sources of inaccuracies in the structural loads prediction originate from deficiencies in aerodynamics or structural dynamics. Both lag damper loads and airloads are important for the accurate prediction of chord bending moments. The effects of drivetrain dynamics on the chord bending moment for the flight test and the effects of hub impedance using test stand NASTRAN model on the chord bending moment for the wind-tunnel test are also investigated. In general, the effects of drivetrain dynamics are small. There is a slight improvement for the 4/rev and 5/rev harmonic magnitude correlation. The effects of hub impedance improve the correlation of both 3/rev and 4/rev harmonic components.
UH-60A Rotor Structural Loads Analysis with Fixed System Structural Dynamics Modeling
Journal of Aircraft ; 56 , 2 ; 669-684
01.03.2019
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
UH-60A Rotor Structural Loads Analysis with Fixed-System Structural Dynamics Modeling
British Library Conference Proceedings | 2018
|British Library Conference Proceedings | 2014
|Prediction of Rotor Structural Loads with Comprehensive Analysis
Online Contents | 2008
|