Passive linearization of nonlinear resonances

Abstract: The objective of this paper is to demonstrate that the addition of properly-tuned nonlinearities to a nonlinear system can increase the range over which a specific resonance responds linearly. Specifically, we seek to enforce two important properties of linear systems, namely the force-displacement proportionality and the invariance of resonance frequencies. Numerical simulations and experiments are used to validate the theoretical findings.

“…As shown theoretically and numerically for mechanical absorbers by Habib et al [24,26], the introduction of a nonlinear component into the tuned vibration absorber counteracts the effect of the nonlinearity of the primary system. According to the so-called 'principle of similarity', the absorber should be governed by equations similar to those of the primary system.…”

“…The experimental set-up in figure 4a is made of a 700 mm long cantilever beam of cross-sectional area 14 × 14 mm [26,30,31]. This beam has been covered with an array of 2 mm thick PZT-5A bimorph patches for the implementation of an NPTVA.…”

A fully passive nonlinear piezoelectric vibration absorber

“…As shown theoretically and numerically for mechanical absorbers by Habib et al [24,26], the introduction of a nonlinear component into the tuned vibration absorber counteracts the effect of the nonlinearity of the primary system. According to the so-called 'principle of similarity', the absorber should be governed by equations similar to those of the primary system.…”

“…The experimental set-up in figure 4a is made of a 700 mm long cantilever beam of cross-sectional area 14 × 14 mm [26,30,31]. This beam has been covered with an array of 2 mm thick PZT-5A bimorph patches for the implementation of an NPTVA.…”

A fully passive nonlinear piezoelectric vibration absorber

“…They designed a nonlinear vibration absorber able to maintain equal peaks over a broader range of forcing amplitude than when using a linear vibration absorber. This same principle of similarity was recently used by Habib and Kerschen [7] to modify the characteristics of multiple nonlinear resonances. By introducing and properly tuning nonlinearities in a structure, they were able to linearise its dynamics.…”

“…The same formalism as Habib and Kerschen [7] is used in the following. The nonlinear equations of motion of the structure and of the nonlinear absorbers attached to it are given by…”

“…Their functional form is chosen according to a principle of similarity. The same formalism as [7] is used to impose equal peaks in the nonlinear frequency response function. With this new design, the working range of vibration absorbers can be extended to higher forcing amplitudes.…”

A Multimodal Nonlinear Tuned Vibration Absorber

Tailoring Nonlinear Normal Modes and Managing Bifurcations