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This paper presents a mathematical model for an industry-inspired problem of vibration isolation applied to elastic fluid-filled containers. A fundamental problem of suppression of vibrations within a finite-width frequency interval for a multi-scale fluid-solid system has been solved. We have developed a systematic approach employing full fluid-solid interaction and dispersion analysis, which can be applied to finite and periodic multi-scale systems. The analytical findings are accompanied by numerical simulations, including frequency response analyses and transient regime computations.

Quasi-periodicity and multi-scale resonators for the reduction of seismic vibrations in fluid-solid systems

Carta G.^Primo;Movchan A. B.^Secondo;Argani L. P.^Penultimo;Bursi O. S.^Ultimo

2016-01-01

Abstract

This paper presents a mathematical model for an industry-inspired problem of vibration isolation applied to elastic fluid-filled containers. A fundamental problem of suppression of vibrations within a finite-width frequency interval for a multi-scale fluid-solid system has been solved. We have developed a systematic approach employing full fluid-solid interaction and dispersion analysis, which can be applied to finite and periodic multi-scale systems. The analytical findings are accompanied by numerical simulations, including frequency response analyses and transient regime computations.

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	Anno di pubblicazione
	
			2016
		
	Parole chiave
	
			Dispersion analysis; Fluid-solid interaction; Multi-scale resonators; Periodic systems; Vibration isolation
		
	Tipologia:
	
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11584/284310

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