Determining XV-15 Aeroelastic Modes from Flight Data with Frequency-Domain Methods

Abstract

The XV-15 tilt-rotor wing has six major aeroelastic modes that are close in frequency. To precisely excite individual modes during flight test, dual flaperon exciters with automatic frequency-sweep controls were installed. The resulting structural data were analyzed in the frequency domain (Fourier transformed). All spectral data were computed using chirp z-transforms. Modal frequencies and damping were determined by fitting curves to frequency-response magnitude and phase data. The results given in this report are for the XV-15 with its original metal rotor blades. Also, frequency and damping values are compared with theoretical predictions made using two different programs, CAMRAD and ASAP. The frequency-domain data-analysis method proved to be very reliable and adequate for tracking aeroelastic modes during flight-envelope expansion. This approach required less flight-test time and yielded mode estimations that were more repeatable, compared with the exponential-decay method previously used.

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Document Details

Document Type
Technical Report
Publication Date
May 01, 1993
Accession Number
ADA530115

Entities

People

  • C. W. Acree Jr.
  • Mark B. Tischler

Tags

Communities of Interest

  • Air Platforms
  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Aeronautics
  • Aircrafts
  • Airframes
  • Army Aviation
  • Computational Science
  • Data Analysis
  • Data Processing
  • Databases
  • Frequency
  • Frequency Domain
  • Frequency Response
  • Measurement
  • Research Aircraft
  • Resonant Frequency
  • Rotary Wing Aircraft
  • Test Methods
  • Tilt Rotor Aircraft

Fields of Study

  • Physics

Readers

  • Aerospace Engineering
  • Approximation Theory.
  • Control Systems Engineering.