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Abstract

In this paper we detail the design, construction, experimental investigation, theoretical modeling, and numerical exploration of a laboratory-scale electromechanical device, which includes the possibility of recurrent mechanical contact and exploitable multidomain signal transduction. In particular, we illustrate the use of inductive coupling between electrical and mechanical degrees of freedom to actuate and interrogate changes in the mechanical response due to the onset of contact through the coupled behavior of the device current. It is shown that nonsmooth bifurcations associated with a transition from nonimpacting to impacting dynamics, induced by changes in critical parameter values, may result in detectable changes in the current amplitude and, significantly, frequency content. The device design and the observed results are argued to support a similar functionality in microscale devices, where multidomain coupling is common.

Keywords

Bifurcation impact electromechanical nonsmooth experiment transduction

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An experimental testbed for investigating nonsmooth bifurcations in an electromechanical system

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