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http://dx.doi.org/10.12989/sem.2015.55.1.029

Vibrations of truncated shallow and deep conical shells with non-uniform thickness  

Kang, Jae-Hoon (Department of Architectural Engineering, Chung-Ang University)
Publication Information
Structural Engineering and Mechanics / v.55, no.1, 2015 , pp. 29-46 More about this Journal
Abstract
A three-dimensional (3-D) method of analysis is presented for determining the natural frequencies of a truncated shallow and deep conical shell with linearly varying thickness along the meridional direction free at its top edge and clamped at its bottom edge. Unlike conventional shell theories, which are mathematically two-dimensional (2-D), the present method is based upon the 3-D dynamic equations of elasticity. Displacement components $u_r$, $u_{\theta}$, and $u_z$ in the radial, circumferential, and axial directions, respectively, are taken to be periodic in ${\theta}$ and in time, and algebraic polynomials in the r and z directions. Strain and kinetic energies of the truncated conical shell with variable thickness are formulated, and the Ritz method is used to solve the eigenvalue problem, thus yielding upper bound values of the frequencies by minimizing the frequencies. As the degree of the polynomials is increased, frequencies converge to the exact values. Convergence to four-digit exactitude is demonstrated. The frequencies from the present 3-D method are compared with those from other 3-D finite element method and 2-D shell theories.
Keywords
truncated conical shell; vibration; variable thickness; three-dimensional analysis;
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