The vibration and damping analysis of orthotropic cylindrical shells with a constrained viscoelastic core is carried out by using a finite element based on a discrete layer theory. The material damping of the facings is also included in the analysis. Results are represented for different geometric and material properties of the shell. The data and trends presented for various cases could be useful for designers in choosing damping treatments for composite shells. © 1994 Academic Press Limited.

T. C. Ramesh

Natrajan Ganesan

Anisotropy

Boundary value problems

Damping

dynamic loads

Facings

finite element method

geometry

Laminated composites

three dimensional

Vibrations (mechanical)

Viscoelasticity

CONSTRAINED LAYER DAMPING TREATMENT

CONSTRAINT VISCOELASTIC CORE

DISCRETE LAYER THEORY

ORTHOTROPIC CYLINDRICAL SHELLS

Shells (structures)

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IIT Madras

Journal of Sound and Vibration

The finite element code is developed based on the displacement field proposed by Wilkins et al. to find out the natural frequencies and loss factors of fluid filled cylindrical shells with a constrained viscoelastic layer in between two facings made of composite material. The fluid effect on the natural frequencies and loss factors are taken care of by the added mass of the fluid on the structure. Effects of the fluid height, ratio of core to facing thickness and facing fibre orientation on the natural frequencies and loss factors of cylindrical shells are presented.

Computers and Structures

Vibration and damping analysis of fluid filled orthotropic cylindrical shells with constrained viscoelastic damping

Orthotropic cylindrical shells with a viscoelastic core: A vibration and damping analysis

Journal	Journal of Sound and Vibration
ISSN	0022460X
Open Access	No