We present axially loaded clamped-guided microbeams that can be used as resonators and actuators of variable stiffness, actuation, and anchor conditions. The applied axial load is implemented by U-shaped electrothermal actuators stacked at one of the beams edges. These can be configured and wired in various ways, which serve as mechanical stiffness elements that control the operating resonance frequency of the structures and their static displacement. The experimental results have shown considerable increase in the resonance frequency and mid-point deflection of the microbeam upon changing the end conditions of the beam. These results can be promising for applications requiring large deflection and high frequency tunability, such as filters, memory devices, and switches. The experimental results are compared to multi-physics finite-element simulations showing good agreement among them.

Volume Subject Area:
11th International Conference on Micro- and Nanosystems
Topics:
Microbeams, Stiffness, Actuators, Deflection, Resonance, Displacement, Engineering simulation, Filters, Finite element analysis, Physics, Simulation, Stress, Switches
This content is only available via PDF.
Copyright © 2017 by ASME
You do not currently have access to this content.