Open AccessDynamic instability of castellated beams subjected to transverse periodic loading
Author(s) -
Sahar Elaiwi,
Boksun Kim,
Long-yuan Li
Publication year - 2019
Publication title -
challenge journal of structural mechanics
Language(s) - English
Resource type - Journals
ISSN - 2149-8024
DOI - 10.20528/cjsmec.2019.01.002
Subject(s) - instability , flange , vibration , buckling , beam (structure) , stiffness , structural engineering , transverse plane , strain energy , mechanics , moment (physics) , materials science , physics , classical mechanics , engineering , finite element method , acoustics
In this study, an analytical solution is developed for the investigation of free vibration, static buckling and dynamic instability of castellated beams subjected to transverse periodic loading. Bolotin’s method is used to perform the dynamic instability analysis. By assuming the instability modes, the mass, stiffness, and geometric stiffness matrices are derived using the kinetic energy, strain energy and potential of applied loads. Analytical equations for determining the free vibration frequency, critical buckling moment, and excitation frequency of castellated beams are derived. In addition, the influences of the flange width of the castellated beam and the static part of the applied load on the variation of dynamic instability zones are discussed. A R T I C L E I N F O Article history: Received 21 November 2018 Revised 24 January 2019 Accepted 11 February 2019
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