A STIFFENED LAMINATED COMPOSITE CONICAL SHELL MODEL FOR VIBRATION OF LARGE GENERATOR END WINDING

HU Yu-da; QIU Jia-jun

Volume 22 Issue 2

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Abstract

Engineering Mechanics > 2005 > 22(2): 189-194.

HU Yu-da, QIU Jia-jun. A STIFFENED LAMINATED COMPOSITE CONICAL SHELL MODEL FOR VIBRATION OF LARGE GENERATOR END WINDING[J]. Engineering Mechanics, 2005, 22(2): 189-194.

Citation:

HU Yu-da, QIU Jia-jun. A STIFFENED LAMINATED COMPOSITE CONICAL SHELL MODEL FOR VIBRATION OF LARGE GENERATOR END WINDING[J]. Engineering Mechanics, 2005, 22(2): 189-194.

Citation:

HU Yu-da, QIU Jia-jun. A STIFFENED LAMINATED COMPOSITE CONICAL SHELL MODEL FOR VIBRATION OF LARGE GENERATOR END WINDING[J]. Engineering Mechanics, 2005, 22(2): 189-194.

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A STIFFENED LAMINATED COMPOSITE CONICAL SHELL MODEL FOR VIBRATION OF LARGE GENERATOR END WINDING

HU Yu-da¹,
QIU Jia-jun²

School of Constructional Engineering and Mechanics, Yanshan University, Qinhuangdao 066004, China;2. Department of Mechanics, Tianjin University, Tianjin 300072, China

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Received Date: June 06, 2003
Revised Date: November 04, 2003

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Abstract

Abstract

A model of orthotropic stiffened laminated composite conical shells is established. The vibrational characteristics of stator end winding and its fastener of a large turbo-generator are studied. With the virtual work principle, the basic kinetic equations of the stiffened laminated composite conical shells are established and expressed in terms of the displacements of stator end winding. Formulae of elastic constants of a single winding and the whole structure are given. With Galerkin integration method, the generalized eigenvalue equations for natural frequencies of end winding are derived. The natural frequencies of steam ends and exiting windings of the turbo-generator are obtained through numerical calculation, and the numerical results are testified with experimental data.
- vibration,
- composite materials,
- stiffened conical shells,
- turbo-generator,
- end winding

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