Detecting singular weak-dissipation limit for flutter onset in reversible systems
Abstract
A `flutter machine' is introduced for the investigation of a singular interface between the classical and reversible Hopf bifurcations that is theoretically predicted to be generic in nonconservative reversible systems with vanishing dissipation. In particular, such a singular interface exists for the Pfl\"uger viscoelastic column moving in a resistive medium, which is proven by means of the perturbation theory of multiple eigenvalues with the Jordan block. The laboratory setup, consisting of a cantilevered viscoelastic rod loaded by a positional force with non-zero curl produced by dry friction, demonstrates high sensitivity of the classical Hopf bifurcation onset {to the ratio between} the weak air drag and Kelvin-Voigt damping in the Pfl\"uger column. Thus, the Whitney umbrella singularity is experimentally confirmed, responsible for discontinuities accompanying dissipation-induced instabilities in a broad range of physical contexts.
Cite
@article{arxiv.1706.02377,
title = {Detecting singular weak-dissipation limit for flutter onset in reversible systems},
author = {Davide Bigoni and Oleg N. Kirillov and Diego Misseroni and Giovanni Noselli and Mirko Tommasini},
journal= {arXiv preprint arXiv:1706.02377},
year = {2018}
}
Comments
17 pages, 10 figures, typos corrected, refs added. Accepted to PRE