Ferruh TURAN

399419

Vibration analysis of porous orthotropic cylindrical panels resting on elastic foundations based on shear deformation theory

Vibration analysis of porous orthotropic cylindrical panels resting on elastic foundations based on shear deformation theory

Cylindrical panels are one of the most essential structural members of engineering structures, with mechanical, civil, aeronautical, and marine engineering applications. They are subjected to a wide range of vibrational loads. This article presents a novel higher-order porosity distribution and a free vibration analysis for porous orthotropic cylindrical panels resting on elastic foundations under higher-order shear deformation theory. It is assumed that cylindrical panels are composed of porous materials with uniformly and non-uniformly distributed pores. The porous panels' material properties are distributed in the thickness direction using specific functions. The equations of motion are derived using Hamilton's principle based on trigonometrical shear deformation theory and solved by performing the Galerkin solution procedure with simply supported edge conditions. The accuracy of the obtained natural frequency equation is confirmed by comparing the results to those of previously published in literature. Under comprehensive parametric studies, the influence of porosity coefficient, porosity distribution patterns, radius-to-curve length ratio, orthotropy, and stiffness of elastic foundation parameters on the free vibration response of porous orthotropic cylindrical panels are discussed in detail.
Keywords:

Porous panel, vibration, shear deformation, elastic foundation porosity,

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International Journal of Engineering and Applied Sciences-Cover
  • Başlangıç: 2009
  • Yayıncı: Akdeniz Üniversitesi
Arşiv
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Vibration analysis of porous orthotropic cylindrical panels resting on elastic foundations based on shear deformation theory

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