Title page for ETD etd-03152007-141535

Type of Document Dissertation
Author Chabalko, Christopher C.
Author's Email Address cchabalk@vt.edu
URN etd-03152007-141535
Title Identification of Transient Nonlinear Aeroelastic Phenomena
Degree PhD
Department Engineering Science and Mechanics
Advisory Committee
Advisor Name Title
Hajj, Muhammad R. Committee Chair
Duke, John C. Jr. Committee Member
Hagedorn, George A. Committee Member
Mook, Dean T. Committee Member
Ragab, Saad A. Committee Member
  • Limit Cycle Oscillations
  • Higher Order Spectra
  • Aeroelasticity
  • Flutter
  • Wavelets
Date of Defense 2007-03-05
Availability unrestricted
Complex nonlinear aspects of aeroelastic phenomena include unsteady nonlinear aerodynamic loads, structural nonlinearities, as well as nonlinear couplings between the flow and the structural response. Nonlinearities in aerodynamic loads originate from unsteady shocks and/or flow separation. Structural nonlinearities are geometric, or a result of free play. Nonlinear fluid structure couplings result from nonlinear resonance between the aerodynamic load and structural modes. Under different conditions, one or a combination of these aspects could yield flutter or Limit Cycle Oscillations (LCO).

The overall goal of this work is to develop the capabilities to quantify the role that these different nonlinear mechanisms could play in observed flutter and LCO. The realization of such a goal would help in providing a benchmark for the detection of nonlinear aeroelastic instabilities and possibly effective means for obtaining improved performance and reduced uncertainties through operation beyond conventional boundaries that are based on linear analysis. Additionally, this effort will provide a benchmark for the validation of computational methodologies.

In this thesis, wavelet-based higher order spectra are applied to identify different nonlinear aeroelastic phenomena as encountered in two experiments. First, the analysis is applied to a set of experiments involving a flexible semispan model (FSM) of a High Speed Civil Transport (HSCT) wing configuration conducted by Silva et al. (Experimental Steady and Unsteady Aerodynamic and Flutter Results for HSCT Semispan Models; AIAA/ASME/ASCE/AHS/ASC 41st Structures, Structural Dynamics, and Materials Conference, 2000). The interest is in the identification of nonlinear aeroelastic phenomena associated with a high dynamic response region which was measured over a large range of dynamic pressures around Mach number 0.98. At the top of this region is a ``hard'' flutter point that resulted in the loss of the model. The results show that ``hard'' flutter is related to intermittent nonlinear coupling between the shock motion and large amplitude structural motions. Second, the analysis is applied to identify nonlinear aspects of LCO encountered during test flights of an F-16 aircraft. The results show quadratic and cubic couplings in the acceleration signals of the under-wing launchers and high quadratic coupling levels between flaperon motions and wing oscillations. The implications of applying these techniques in the capacity of a ``flutterometer'' are also discussed.

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  0_frontmatter.pdf 130.63 Kb 00:00:36 00:00:18 00:00:16 00:00:08 < 00:00:01
  1_chap1.pdf 240.53 Kb 00:01:06 00:00:34 00:00:30 00:00:15 00:00:01
  2_chap2.pdf 753.87 Kb 00:03:29 00:01:47 00:01:34 00:00:47 00:00:04
  3_chap3.pdf 20.13 Mb 01:33:11 00:47:55 00:41:55 00:20:57 00:01:47
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  5_chap5.pdf 36.12 Kb 00:00:10 00:00:05 00:00:04 00:00:02 < 00:00:01
  6_backmatter.pdf 67.52 Kb 00:00:18 00:00:09 00:00:08 00:00:04 < 00:00:01

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