Vibration Of Rings With Unsymmetrical Cross-Sections: A Finite Element Approach

Large amplitude free flexural vibrations of horizontally circular curved beams have been investigated for the first time. Numerical solutions have been obtained by the finite element method. A three-noded horizontally curved isoparametric beam element has been chosen for this purpose. A non-linear s

A theoretical analysis is presented for the large amplitude vibration of symmetric and unsymmetric composite plates using the non-linear finite element modal reduction method. The problem is first reduced to a set of Duffing-type modal equations using the finite element modal reduction method. The m

A new conical ring element to be used in connection with the finite element method (FEM) is developed, which considers the effects of slight local deviations from an axisymmetric ring. To develop the proposed finite element, the displacements of a point in the ring element are assumed by a pair of t

The natural vibration frequency of a torsion cylinder with varying cross section and an adhesive mass is investigated in this paper. From the numerical solution of the governing equation under the relevant boundary conditions we can de"ne a function which is called the target function in this paper.