In this paper, two new methods are proposed to study wave propagation in materials with constitutive law that have nonlinear terms. In the first method, the gauge transformation is used to derive the dynamic shape function. A perturbation method is then applied in order to derive an equation for the wavenumber. The influence of the nonlinearity takes the form of a dependence of the wavenumber on the magnitude of the corresponding frequency component. Under the small amplitude and weak nonlinearity assumptions of the perturbation method, the wavenumber is incorporated into the spectral finite element method (SFEM). The second approach is a numerical method based on alternating frequency-time (AFT) iterations. The nonlinear term represented as a residual nonlinear force term is reduced through the alternating iterations between the time-domain and the frequency-domain. Finally, response behaviors under impact loading predicted with these methods are studied and compared to equivalent linear response behavior.
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ASME 2012 International Mechanical Engineering Congress and Exposition
November 9–15, 2012
Houston, Texas, USA
Conference Sponsors:
- ASME
ISBN:
978-0-7918-4520-2
PROCEEDINGS PAPER
High Fidelity Methods for Modeling Nonlinear Wave Propagation in One-Dimensional Waveguides
Andrew J. Dick
Andrew J. Dick
Rice University, Houston, TX
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Yu Liu
Rice University, Houston, TX
Pooya Ghaderi
Rice University, Houston, TX
Andrew J. Dick
Rice University, Houston, TX
Paper No:
IMECE2012-88162, pp. 741-750; 10 pages
Published Online:
October 8, 2013
Citation
Liu, Y, Ghaderi, P, & Dick, AJ. "High Fidelity Methods for Modeling Nonlinear Wave Propagation in One-Dimensional Waveguides." Proceedings of the ASME 2012 International Mechanical Engineering Congress and Exposition. Volume 4: Dynamics, Control and Uncertainty, Parts A and B. Houston, Texas, USA. November 9–15, 2012. pp. 741-750. ASME. https://doi.org/10.1115/IMECE2012-88162
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