Archivio Istituzionale della RicercaWe present a numerical and experimental investigation on the nonlinear equilibri-um paths and elastic stability of pinned shallow arches realized by buckling a straight strut and then subjected to a transverse central point load. Finite element analyses were run to compare the behavior of arches with and without initial pre-stress condition. The effects of initial shallowness ratio, axial-to-bending stiffness ratio, and initial geometric imperfections on the equilibrium path and bifurcation points were investigated. As an experimental verification, laboratory tests were conducted on a pinned-pinned shallow arch obtained by buckling a thin, slender steel bar. Static and dynamic measurements were carried out to determine the load-displacement curve, the subsequent static deformed configurations, the fre-quency-load curves, and the buckling load. The acquired data were used for buckling load predictions and to obtain stability domains in terms of form factors and imperfection-sensitivity parameters.
Elastic Stability of Shallow Bending-Active Arches / Piana, G.; Bazzucchi, F.; Manuello Bertetto, A.. - STAMPA. - 437:(2024), pp. 369-378. (Intervento presentato al convegno IWSS 2023 Italian Workshop on Shell and Spatial Structures tenutosi a Torino nel 26th - 28th June 2023) [10.1007/978-3-031-44328-2_38].
Elastic Stability of Shallow Bending-Active Arches
Piana G.;Manuello Bertetto A.
2024
Abstract
We present a numerical and experimental investigation on the nonlinear equilibri-um paths and elastic stability of pinned shallow arches realized by buckling a straight strut and then subjected to a transverse central point load. Finite element analyses were run to compare the behavior of arches with and without initial pre-stress condition. The effects of initial shallowness ratio, axial-to-bending stiffness ratio, and initial geometric imperfections on the equilibrium path and bifurcation points were investigated. As an experimental verification, laboratory tests were conducted on a pinned-pinned shallow arch obtained by buckling a thin, slender steel bar. Static and dynamic measurements were carried out to determine the load-displacement curve, the subsequent static deformed configurations, the fre-quency-load curves, and the buckling load. The acquired data were used for buckling load predictions and to obtain stability domains in terms of form factors and imperfection-sensitivity parameters.
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IWSS23_Paper1039_Piana Bazzucchi Manuello_R1.pdf
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https://hdl.handle.net/11583/2984245