Vibration analysis of submerged rectangular microplates with distributed mass loading

Zhangming Wu; Xianghong Ma; Peter N. Brett; Jinwu Xu

doi:10.1098/rspa.2008.0447

Vibration analysis of submerged rectangular microplates with distributed mass loading

Zhangming Wu, Xianghong Ma, Peter N. Brett, Jinwu Xu

Research output: Contribution to journal › Article › peer-review

Abstract

This paper investigates the vibration characteristics of the coupling system of a microscale fluid-loaded rectangular isotropic plate attached to a uniformly distributed mass. Previous literature has, respectively, studied the changes in the plate vibration induced by an acoustic field or by the attached mass loading. This paper investigates the issue of involving these two types of loading simultaneously. Based on Lamb's assumption of the fluid-loaded structure and the Rayleigh–Ritz energy method, this paper presents an analytical solution for the natural frequencies and mode shapes of the coupling system. Numerical results for microplates with different types of boundary conditions have also been obtained and compared with experimental and numerical results from previous literature. The theoretical model and novel analytical solution are of particular interest in the design of microplate-based biosensing devices.

Original language	English
Pages (from-to)	1323-1336
Number of pages	14
Journal	Proceeding of the Royal Society: Series B
Volume	465
Issue number	2104
DOIs	https://doi.org/10.1098/rspa.2008.0447
Publication status	Published - 8 Apr 2009

Keywords

microplate dynamics
fluid–structure interaction
microplate-based biosensing system

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10.1098/rspa.2008.0447

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abstract = "This paper investigates the vibration characteristics of the coupling system of a microscale fluid-loaded rectangular isotropic plate attached to a uniformly distributed mass. Previous literature has, respectively, studied the changes in the plate vibration induced by an acoustic field or by the attached mass loading. This paper investigates the issue of involving these two types of loading simultaneously. Based on Lamb's assumption of the fluid-loaded structure and the Rayleigh–Ritz energy method, this paper presents an analytical solution for the natural frequencies and mode shapes of the coupling system. Numerical results for microplates with different types of boundary conditions have also been obtained and compared with experimental and numerical results from previous literature. The theoretical model and novel analytical solution are of particular interest in the design of microplate-based biosensing devices.",

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T1 - Vibration analysis of submerged rectangular microplates with distributed mass loading

AU - Wu, Zhangming

AU - Ma, Xianghong

AU - Brett, Peter N.

AU - Xu, Jinwu

PY - 2009/4/8

Y1 - 2009/4/8

N2 - This paper investigates the vibration characteristics of the coupling system of a microscale fluid-loaded rectangular isotropic plate attached to a uniformly distributed mass. Previous literature has, respectively, studied the changes in the plate vibration induced by an acoustic field or by the attached mass loading. This paper investigates the issue of involving these two types of loading simultaneously. Based on Lamb's assumption of the fluid-loaded structure and the Rayleigh–Ritz energy method, this paper presents an analytical solution for the natural frequencies and mode shapes of the coupling system. Numerical results for microplates with different types of boundary conditions have also been obtained and compared with experimental and numerical results from previous literature. The theoretical model and novel analytical solution are of particular interest in the design of microplate-based biosensing devices.

AB - This paper investigates the vibration characteristics of the coupling system of a microscale fluid-loaded rectangular isotropic plate attached to a uniformly distributed mass. Previous literature has, respectively, studied the changes in the plate vibration induced by an acoustic field or by the attached mass loading. This paper investigates the issue of involving these two types of loading simultaneously. Based on Lamb's assumption of the fluid-loaded structure and the Rayleigh–Ritz energy method, this paper presents an analytical solution for the natural frequencies and mode shapes of the coupling system. Numerical results for microplates with different types of boundary conditions have also been obtained and compared with experimental and numerical results from previous literature. The theoretical model and novel analytical solution are of particular interest in the design of microplate-based biosensing devices.

KW - microplate dynamics

KW - fluid–structure interaction

KW - microplate-based biosensing system

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JO - Proceeding of the Royal Society: Series B

JF - Proceeding of the Royal Society: Series B

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ER -

Vibration analysis of submerged rectangular microplates with distributed mass loading

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