Static and Eigenvalue Analysis of Electrostatically Coupled and Tunable Shallow Micro-Arches for Sensing-Based Applications

Abstract: This paper investigated the mechanical performance of an electrostatically tunable microbeams-based resonators. The resonator was designed based on two initially-curved microbeams that are electrostatically coupled, offering the potential for improved performance compared to single-beam based resonators. Analytical models and simulation tools were developed to optimize the resonator design dimensions and to predict its performance, including its fundamental frequency and motional characteristics. The results s… Show more

“…These properties are harnessed for precision measurements across various domains of study. Certain studies have showcased the successful practical application of such mechanical architectures for high-precision measurements, encompassing parameters like force/transnational acceleration [5], displacements [6], velocity [7], and gas sensors [8,9].…”

Modeling and Structural Analysis of MEMS Shallow Arch Assuming Multimodal Initial Curvature Profiles

“…These properties are harnessed for precision measurements across various domains of study. Certain studies have showcased the successful practical application of such mechanical architectures for high-precision measurements, encompassing parameters like force/transnational acceleration [5], displacements [6], velocity [7], and gas sensors [8,9].…”

Modeling and Structural Analysis of MEMS Shallow Arch Assuming Multimodal Initial Curvature Profiles

Dynamic snap-through motion and chaotic attractor of electrostatic shallow arch micro-beams

Nonlinear dynamics of elastic ferromagnetic microplates subjected to motion effect