Open Physics (Oct 2019)

Vibration Analysis of a Three-Layered FGM Cylindrical Shell Including the Effect Of Ring Support

  • Ghamkhar Madiha,
  • Naeem Muhammad Nawaz,
  • Imran Muhammad,
  • Soutis Constantinos

DOI
https://doi.org/10.1515/phys-2019-0060
Journal volume & issue
Vol. 17, no. 1
pp. 587 – 600

Abstract

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In this work, we study vibrations of three-layered cylindrical shells with one ring support along its length. Nature of material of the central layer is a functionally graded material (FGM) type. The considered FGM is of stainless steel and nickel. The internal and external layers are presumed to be made of isotropic material i.e., aluminum. The functionally graded material composition of the center layer is assorted by three volume fraction laws (VFL) which are represented by mathematical expressions of polynomial, exponential and trigonometric functions. The implementation of Rayleigh-Ritz method has been done under the Sanders’ shell theory to obtain the shell frequency equation. Natural frequencies (NFs) are attained for the present model problem under six boundary conditions. Use of characteristic beam functions is made for the estimation of the dependence of axial modals. The impact of layer material variations with ring support is considered for many ring positions. Also the effect of volume fraction laws is investigated upon vibration characteristics. This investigation is performed for various physical parameters. Numerous comparisons of values of shell frequencies have been done with available models of such types of results to verify accuracy of the present formulation and demonstrate its numerical efficiency.

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