The present work constitutes an approach to the seismic protection of cable-stayed bridges including the incorporation of fluid viscous dampers as additional energy dissipation devices. The idea of the authors is to provide an up-to-date vision of the problem taking into account that long-period structures such as those proposed here, need to be adequately protected against strong motions, and considering that, because of their importance, an elastic behaviour is desirable. Chapter 1 describes the object to study ingeneral terms. Chapter 2 constitutes a state-of-the-art review regarding the seismic
behaviour and performance of fluid viscous dampers as external energy dissipation devices.
The mechanical behaviour and technological aspects are now introduced with an energetic
point of view, in which some practical applications are exposed and discussed. Chapter 3 describes the seismic response of cable-stayed bridges without external seismic protection, considering a parametric analysis in order to study the effects of the stay cable layout, stay spacing and deck level. A complete modal characterization is exposed, followed by a response spectrum analysis for comparative purposes. The effect of variations of the stay forces is analyzed, and finally, a nonlinear step-by-step analysis is performed for the critical structures, considering the velocity dependence of such bridges and the effects of far-fault and near-fault ground motions. The last Chapter exposes the seismic analysis of the selected structures including the incorporation of fluid viscous dampers as passive additional energy dissipation devices. Because of the inherent nonlinear behaviour of the structures and external devices, a mandatory nonlinear direct integration time-history analysis is performed for all the cases, in which parametric analyses are carried out in order to select the best damper parameters, and for the case of both far-fault and near-fault ground motions. In this part, comparative results are exposed with the aim to propose some practical recommendations.
Seismic Protection of Cable-Stayed Bridges Applying Fluid Viscous Dampers
FREE!
Monograph
Authors: G. E. Valdebenito, A. C. AparicioISBN: 978-96736-84-9
Editorial: CIMNE
Year of publication: 2009
Pages: 163
Index: Introduction; Fluid Viscous Damping Technology; Seismic Response. Parametric Analysis; Seismic Protection. Application of fluid Viscous Dampers; Appendix A. Step-by-Step Nonlinear Time History Analysis
Monograph
Authors: G. E. Valdebenito, A. C. AparicioISBN: 978-96736-84-9
Editorial: CIMNE
Year of publication: 2009
Pages: 163
Index: Introduction; Fluid Viscous Damping Technology; Seismic Response. Parametric Analysis; Seismic Protection. Application of fluid Viscous Dampers; Appendix A. Step-by-Step Nonlinear Time History Analysis