An Experimental Study of the Effects of a Nonlinear Store on the Steady-State Dynamics of a Test Airplane

Copeland, Timothy J.; Dalisay, Jon Dewitt E.; Bergman, Lawrence A.; Vakakis, Alexander F.

doi:10.4271/2021-01-1117

SAE Int. J. Adv. & Curr. Prac. in Mobility

2021

DOI: 10.4271/2021-01-1117

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An Experimental Study of the Effects of a Nonlinear Store on the Steady-State Dynamics of a Test Airplane

Timothy J. Copeland¹,

Jon Dewitt E. Dalisay²,

Lawrence A. Bergman³

et al.

Abstract: <div class="section abstract"><div class="htmlview paragraph">Local nonlinearities can affect the global dynamics of their linear host structures. In the context of fixed-wing aircraft, failure of store mounting can result in strong local nonlinearities. In this work, we experimentally mimic store mounting failure conditions in a model airplane subject to harmonic excitation. Two identical stores are mounted under the wings and are placed symmetrically opposite each other. The configuration where b… Show more

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Data-Driven Method for Nonlinear Modal Interaction Identification in Fighter Aircraft

Chang,

Bergman,

Moore

et al. 2024

AIAA Journal

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The purpose of this paper is to report a new data-driven analysis methodology for identifying nonlinear modal interactions and its application to aeroelastic wind-tunnel data from a generic fighter configuration, which reveals global modal interactions in this system caused by multiple resonance capture events initiated by local nonlinearities. It is shown that during supersonic testing at the Transonic Dynamics Tunnel, vibro-impacts at the embedded external fuel tank shakers on the inboard underwing stations of the generic fighter introduce strong nonlinearity that gives rise to nonlinear modal interactions. Specifically, time–frequency analysis of the acceleration data demonstrates that [Formula: see text] and [Formula: see text] transient resonance captures occur across the aircraft exclusively during this vibro-impact forcing window. Further analysis suggests that these resonance captures are dependent on Mach number. These results show experimentally that local vibro-impacts can cause global nonlinear effects in an aeroelastic system and that these effects can be identified using the new methodology herein. The data-driven analysis scheme employed shows applicability to full-aircraft flight test data for identifying nonlinear modal interactions without knowledge of the precise nonlinear contributors.

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Data-Driven Method for Nonlinear Modal Interaction Identification in Fighter Aircraft

Chang,

Bergman,

Moore

et al. 2024

AIAA Journal

View full text Add to dashboard Cite

show abstract

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An Experimental Study of the Effects of a Nonlinear Store on the Steady-State Dynamics of a Test Airplane

Cited by 1 publication

References 3 publications

Data-Driven Method for Nonlinear Modal Interaction Identification in Fighter Aircraft

Data-Driven Method for Nonlinear Modal Interaction Identification in Fighter Aircraft

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