Abstract
AbstractForced responses of mechanical systems are crucial design and performance criteria. Hence, their robust and reliable calculation is of vital importance. While numerical computation of periodic responses benefits from an extensive mathematical basis, the literature for quasi-periodically forced systems is limited. More specifically, the absence of applicable and general existence criterion for quasi-periodic orbits of nonlinear mechanical systems impedes definitive conclusions from numerical methods such as harmonic balance. In this work, we establish a general existence criterion for quasi-periodically forced vibratory systems with nonlinear stiffness terms. Our criterion does not rely on any small parameters and hence is applicable for large response and forcing amplitudes. On explicit numerical examples, we demonstrate how our existence criterion can be utilized to justify subsequent numerical computations of forced responses.
Publisher
Springer Science and Business Media LLC
Subject
Electrical and Electronic Engineering,Applied Mathematics,Mechanical Engineering,Ocean Engineering,Aerospace Engineering,Control and Systems Engineering
Reference61 articles.
1. Alonso, J.M., Ortega, R.: Global asymptotic stability of a forced Newtonian system with dissipation. J. Math. Anal. Appl. 196(3), 965–986 (1995)
2. Universitext;VI Arnol’d,2006
3. Berger, M., Chen, Y.: Forced quasiperiodic and almost periodic solution for nonlinear systems. Nonlinear Anal. Theory Methods Appl. 21(12), 949–965 (1993)
4. Blot, J., Cieutat, P., Mawhin, J., et al.: Almost-periodic oscillations of monotone second-order systems. Adv. Differ. Equ. 2(5), 693–714 (1997)
5. De Gruyter Series in Nonlinear Analysis and Applications;N Bobylev,1994
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