Damping and Forced Vibration Analyses of Viscoelastic Shells

F. Abdoun; L. Azrar; E. M. Daya

doi:10.1080/15502280903563533

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Damping and Forced Vibration Analyses of Viscoelastic Shells

Journal article

Peer reviewed

Damping and Forced Vibration Analyses of Viscoelastic Shells

F. Abdoun, L. Azrar and E. M. Daya

International journal of computational methods in engineering science and mechanics, Vol.11(2), pp.109-122

26/03/2010

DOI: https://doi.org/10.1080/15502280903563533

Abstract

Arch

Continuation

FEM

Loss

Maxwell

Response

Sandwich

Shell

Vibration

Viscoelastic

The forced vibration response curves and damping characteristics of viscoelastic and sandwich viscoelastic shells are studied by a combination of the finite element and perturbation methods. The mathematical formulation is developed in a general form in order to take into account various viscoelastic models in the frequency domain. Frequency dependent Young modulus based on various Maxwell's model is used for viscoelastic materials modeling. The series-continuation and Padé-continuation procedures are elaborated for harmonic responses of elastic, viscoelastic and sandwich arches, panels, and cylindrical shells. Passive vibration control, response curves, and equivalent damping characteristics are obtained at large frequency ranges.

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Title: Damping and Forced Vibration Analyses of Viscoelastic Shells
Creators - without role: F. Abdoun - Abdelmalek Essaâdi University
L. Azrar - Abdelmalek Essaâdi University
E. M. Daya - Laboratoire de Physique et Méchanique des Matériaux , Université Paul Verlaine-Metz
Publication Details: International journal of computational methods in engineering science and mechanics, Vol.11(2), pp.109-122
Publisher: Taylor & Francis Group
Identifiers: 9935701208331
Academic Unit: King Abdulaziz University
Language: English
Resource Type: Journal article