Aluminium Foam Sandwich (AFS) panels are becoming always more attractive in transportation applications thanks to the excellent combination of mechanical properties, high strength and stiffness, with functional ones, thermo-acoustic isolation and vibration damping. These properties strongly depend on the density of the foam, the morphology of the pores, the type (open or closed cells) and the size of the gas bubbles enclosed in the solid material. In this paper, the vibrational performances of two classes of sandwich panels with an Alulight® foam core are studied. Experimental tests, in terms of frequency response function and modal analysis, are performed in order to investigate the effect of different percentage of porosity in the foam, as well as the effect of the random distribution of the gas bubbles. Experimental results are used as a reference for developing numerical models using finite element approach. Firstly, a sensitivity analysis is performed in order to obtain a limit-but-bounded dynamic response, modelling the foam core as a homogeneous one. The experimental-numerical correlation is evaluated in terms of natural frequencies and mode shapes. Afterwards, an update of the previous numerical model is presented, in which the core is not longer modelled as homogeneous. Mass and stiffness are randomly distributed in the core volume, exploring the space of the eigenvectors.

Modelling of aluminium foam sandwich panels / D'Alessandro, Vincenzo; Petrone, Giuseppe; DE ROSA, Sergio; Franco, Francesco. - In: SMART STRUCTURES AND SYSTEMS. - ISSN 1738-1584. - 13:4(2014), pp. 615-636. [10.12989/sss.2014.13.4.615]

Modelling of aluminium foam sandwich panels

D'ALESSANDRO, VINCENZO;PETRONE, GIUSEPPE;DE ROSA, SERGIO;FRANCO, FRANCESCO
2014

Abstract

Aluminium Foam Sandwich (AFS) panels are becoming always more attractive in transportation applications thanks to the excellent combination of mechanical properties, high strength and stiffness, with functional ones, thermo-acoustic isolation and vibration damping. These properties strongly depend on the density of the foam, the morphology of the pores, the type (open or closed cells) and the size of the gas bubbles enclosed in the solid material. In this paper, the vibrational performances of two classes of sandwich panels with an Alulight® foam core are studied. Experimental tests, in terms of frequency response function and modal analysis, are performed in order to investigate the effect of different percentage of porosity in the foam, as well as the effect of the random distribution of the gas bubbles. Experimental results are used as a reference for developing numerical models using finite element approach. Firstly, a sensitivity analysis is performed in order to obtain a limit-but-bounded dynamic response, modelling the foam core as a homogeneous one. The experimental-numerical correlation is evaluated in terms of natural frequencies and mode shapes. Afterwards, an update of the previous numerical model is presented, in which the core is not longer modelled as homogeneous. Mass and stiffness are randomly distributed in the core volume, exploring the space of the eigenvectors.
2014
Modelling of aluminium foam sandwich panels / D'Alessandro, Vincenzo; Petrone, Giuseppe; DE ROSA, Sergio; Franco, Francesco. - In: SMART STRUCTURES AND SYSTEMS. - ISSN 1738-1584. - 13:4(2014), pp. 615-636. [10.12989/sss.2014.13.4.615]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/577867
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