Sage Journals: Discover world-class research

Abstract

An elastic continuous model is presented for the inclined cable with damage which is described as reduction of the axial stiffness. The damage effect on the static configuration of the cable under self-weight is investigated through a numerical solution. Hamilton’s principle is then employed to derive the governing equations for the in-plane dynamic motion of the cable-stayed beam with cable damage. The linear eigenmodes are obtained via the method of reverberation-ray matrix after a standard condensation procedure. A single-degree-of-freedom nonlinear model is obtained by the single-mode discretization. The homotopy analysis method is then successfully applied to get the frequency-amplitude relationship, which enables the influence of cable damage on the nonlinear dynamic behavior of the system to be characterized.

Keywords

Cable-stayed beam damage eigenmode homotopy analysis method method of reverberation-ray matrix nonlinear dynamics

Get full access to this article

View all access options for this article.

References

Abdel-Ghaffar AM and Khalifa MA ( 1991) Importance of cable vibration in dynamics of cable-stayed beam. ASCE Journal of Engineering Mechanics 117: 2571-2589.

Bouaanani N. ( 2006) Numerical investigation of the modal sensitivity of suspended cables with localized damage. Journal of Sound and Vibration 292: 1015-1030.

Brownjohn JMW , Lee J. and Cheong B. ( 1999) Dynamic performance of a curved cable-stayed bridge . Engineering Structures 21: 1015-1027.

Caetano E. , Cunha A. and Raylor CA ( 2001) Investigation of dynamic cable-deck interaction in a physical model of a cable-stayed bridge. Earthquake Engineering and Structural Dynamics 29: 499-521.

Cerri MN and Vestroni F. ( 2000) Detection of damage in beams subjected to diffused cracking . Journal of Sound and Vibration 234: 259-276.

Fujino Y. , Warnitchai P. and Pacheco BM ( 1993) An experimental and analytical study of autoparametric resonance in a 3DOF model of cable-stayed-beam. Nonlinear Dynamics 4: 111-138.

Gattulli V. , Morandini M. and Paolone A. ( 2002) A parametric analytical model for nonlinear dynamics in cable-stayed beam. Earthquake Engineering and Structural Dynamics 31: 1281-1300.

Gladwell GML ( 1984) The inverse problem for the vibrating beam. Proceedings of the Royal Society of London A393: 277-295.

Howard SM and Pao YH ( 1998) Analysis and experiments on stress waves in planar trusses . ASCE Journal of Engineering Mechanics 124: 884-891.

10.

Irvine HM ( 1981) Cable Structures. Cambridge : The MIT Press.

11.

Irvine HM and Sinclair GB ( 1976) The suspended elastic cable under the action of concentrated vertical loads. International Journal of Solid and Structures 12: 309-317.

12.

Lepidi M. , Gattulli V. and Vestroni F. ( 2007) Static and dynamic response of elastic suspended cables with damage. International Journal of Solids and Structures 44: 8194-8212.

13.

Lepidi M. , Gattulli V and Vestroni F (2009) Damage identification in elastic suspended cables through frequency measurement. Journal of Vibration and Control 15: 867-896.

14.

Liao SJ ( 2003) Beyond Perturbation: Introduction to the Homotopy Analysis Method. Boca Raton: Chapman & Hall/CRC Press.

15.

Nazmy AS and Abdel-Ghaffar AM ( 1990) Nonlinear earthquake-response analysis of long-span cable-stayed bridges. Earthquake Engineering Mechanics 19: 45-76.

16.

Pao YH , Chen WQ and Su XY ( 2007) The reverberation-ray matrix and transfer matrix analyses of unidirectional wave motion. Wave Motion 44: 419-438.

17.

Pao YH , Keh DC and Howard SM ( 1999) Dynamic response and wave propagation in plane trusses and frames. AIAA Journal 37: 594-603.

18.

Pinto da Costa A. , Martins JAC , Branco F. and Lilien JL ( 1996) Oscillations of bridge stay cables induced by periodic motions of deck and/or towers. ASCE Journal of Engineering Mechanics 122: 613-622.

19.

Rega G. , Vestroni F. and Benedettini F. ( 1984) Parametric analysis of large amplitude free vibrations of a suspended cable. International Journal of Solid and Structures 20: 95-105.

20.

Warnitchai P. , Fujino Y. , Pacheco BM and Agret R. ( 1993) An experimental study on active tendon control of cable-stayed-bridges . Earthquake Engineering and Structural Dynamics 22: 93-111.

21.

Warnitchai P. , Fujino Y. and Susumpow T. ( 1995) A nonlinear dynamic model for cables and its application to a cable-structure system. Journal of Sound and Vibration 187: 695-712.

Dynamic behavior of cable-stayed beam with localized damage

Abstract

Keywords

Get full access to this article

References