Compressed thin-walled beams with open section are prone to torsional, or flexural-torsional, buckling. Here we present the results of several studies where, by piezoelectric pickups and a universal testing machine, we experimentally detected the natural frequencies and buckling loads of centrally compressed aluminum thin-walled beams with open cruciform section, exhibiting remarkable warping stiffness. We detected the free vibration frequencies for different values of the compressive force and for both free and (at least partially) restrained warping of the end sections. We compared the behavior of integer elements to that of analogous beams, where we introduced a localized damage, i.e., a sharp variation of a cross-section. For the integer elements, we compared the experimental results with those provided by an in-house numerical code, which investigates the elastic stability of possible non-trivial paths of thin-walled beams in a dynamic setting. The results show that, on the one hand, piezoelectric pickups can be efficiently used to extract modal parameters of structural elements; on the other hand, the numerical code proves to be robust and accurate in the determination of the buckling loads of the integer elements, in all the analyzed configurations.

Experimental and numerical elastodynamic analysis of compressed open thin-walled beams / Piana, Gianfranco; Carpinteri, Alberto; Lofrano, Egidio; Malvano, Riccardo; Manuello, Amedeo; Ruta, Giuseppe. - STAMPA. - (2016), pp. 125-138. (Intervento presentato al convegno Proceedings of the 34th IMAC tenutosi a Orlando, USA nel 25/1-28/1 2016).

Experimental and numerical elastodynamic analysis of compressed open thin-walled beams

PIANA, GIANFRANCO;LOFRANO, EGIDIO;RUTA, Giuseppe
2016

Abstract

Compressed thin-walled beams with open section are prone to torsional, or flexural-torsional, buckling. Here we present the results of several studies where, by piezoelectric pickups and a universal testing machine, we experimentally detected the natural frequencies and buckling loads of centrally compressed aluminum thin-walled beams with open cruciform section, exhibiting remarkable warping stiffness. We detected the free vibration frequencies for different values of the compressive force and for both free and (at least partially) restrained warping of the end sections. We compared the behavior of integer elements to that of analogous beams, where we introduced a localized damage, i.e., a sharp variation of a cross-section. For the integer elements, we compared the experimental results with those provided by an in-house numerical code, which investigates the elastic stability of possible non-trivial paths of thin-walled beams in a dynamic setting. The results show that, on the one hand, piezoelectric pickups can be efficiently used to extract modal parameters of structural elements; on the other hand, the numerical code proves to be robust and accurate in the determination of the buckling loads of the integer elements, in all the analyzed configurations.
2016
Proceedings of the 34th IMAC
natural frequencies; piezoelectric sensors; thin-walled beams; warping constraints; buckling
04 Pubblicazione in atti di convegno::04b Atto di convegno in volume
Experimental and numerical elastodynamic analysis of compressed open thin-walled beams / Piana, Gianfranco; Carpinteri, Alberto; Lofrano, Egidio; Malvano, Riccardo; Manuello, Amedeo; Ruta, Giuseppe. - STAMPA. - (2016), pp. 125-138. (Intervento presentato al convegno Proceedings of the 34th IMAC tenutosi a Orlando, USA nel 25/1-28/1 2016).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/872988
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