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Dynamic analysis of axially loaded cantilever shear-beam under large deflections with small rotations

TitoloDynamic analysis of axially loaded cantilever shear-beam under large deflections with small rotations
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2023
AutoriSaitta, Fernando
RivistaEarthquake Engineering & Structural Dynamics
Data di pubblicazioneSep-03-2024
ISSN00988847
Parole chiavecontinuous models, dynamics of cantilever, Seismic analysis, Timoshenko beam
Abstract

The modal analysis and seismic response of a vibrating cantilever, with or without
tip mass and rotary inertia, are investigated in this study using a shear
deformable beam model and including the effect of vertical load. Based on existing
approaches, an original method is proposed that does not use fourth-order
uncoupled equations to determine modal deflection and rotation. In fact, the
approach presented herein transforms the second-order coupled system into a
first-order system which can be solved more easily using matrix algebra and
Laplace transform. Furthermore, the proposed form allows a straightforward
demonstration of orthogonality conditions, that is, the problem is self-adjoint,
and the solution in the case of forced response using modal superposition. In
addition, even if the solution presented herein is applicable only to the cantilever
with a tip mass and rotary inertia, the scope is general, and the approach
can be applied to shear deformable beams with other boundary conditions.
Finally, the seismic response by modal superposition is shown, and some examples
are proposed and discussed for the case of uniform or continuously varying
cross-sectional properties.

Note

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URLhttps://onlinelibrary.wiley.com/doi/10.1002/eqe.3881
DOI10.1002/eqe.3881
Titolo breveEarthq Engng Struct Dyn
Citation Key11358