Abstract
AbstractFor more complex nonlinear systems, where the amplitude of excitation can vary in time or where time-dependent external disturbances appear, an analysis based on the frequency response curve may be insufficient. In this paper, a new tool to analyze nonlinear dynamical systems is proposed as an extension to the frequency response curve. A new tool can be defined as the chart of bistability areas and area of unstable solutions of the analyzed system. In the paper, this tool is discussed on the basis of the classic Duffing equation. The numerical approach was used, and two systems were tested. Both systems are softening, but the values of the coefficient of nonlinearity are significantly different. Relationships between both considered systems are presented, and problems of the nonlinearity coefficient and damping influence are discussed.
Publisher
Springer Science and Business Media LLC
Reference45 articles.
1. Duffing, G. Erzwungene Schwingungen bei Veränderlicher Eigenfrequenz und ihre Technische Bedeutung (Forced oscillators with variable eigenfrequency and their technical meaning). F. Vieweg Sohn, 41–42 (1918) (in German).
2. Hayashi, C. et al. Nonlinear Oscillations in Physical Systems (McGraw-Hill, New York, 1964).
3. Mickens, R. Comments on the method of harmonic balance. J. Sound Vib. 94(3), 456–460 (1984).
4. Liu, L., Thomas, J., Dowell, E., Attar, P. & Hall, K. A comparison of classical and high dimensional harmonic balance approaches for a Duffing oscillator. J. Comput. Phys. 215(1), 298–320 (2006).
5. Agarwal, V., Zheng, X. & Balachandran, B. Influence of noise on frequency responses of softening Duffing oscillators. Phys. Lett. A 382(46), 3355–3364 (2018).
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