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[International Journal of Non-Linear Mechanics] Linear and non-linear vibrations of fluid-filled hol


Linear and non-linear vibrations of a U-shaped hollow microcantilever beam filled with fluid and interacting with a small particle are investigated. The microfluidic device is assumed to be subjected to internal flowing fluid carrying a buoyant mass. The equations of motion are derived via extended Hamilton's principle and by using Euler-Bernoulli beam theory retaining geometric and inertial non-linearities. A reduced-order model is obtained applying Galerkin's method and solved by using a pseudo arc-length continuation and collocation scheme to perform bifurcation analysis and obtain frequency response curves. Direct time integration of the equations of motion has also been performed by using Adams-Moulton method to obtain time histories and analyze transient cantilever-particle interactions in depth. It is shown that exploiting near resonant non-linear behavior of the microcantilever could potentially yield enhanced sensor metrics. This is found to be due to the transitions that occur as a matter of particle movement near the saddle-node bifurcation points of the coupled system that lead to jumps between coexisting stable attractors.

P. Belardinelli, M.K. Ghatkesar, U. Staufer, F. Alijani, Department of Precision and Microsystems Engineering, TU Delft, Netherlands Received 29 November 2016, Revised 19 March 2017, Accepted 17 April 2017, Available online 21 April 2017 http://doi.org/10.1016/j.ijnonlinmec.2017.04.016

Link: http://www.sciencedirect.com/science/article/pii/S002074621630364X


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