Abstract
AbstractCable-stayed bridges are important infrastructure facilities serving the world today. Therefore, their safety against earthquake ground motions is crucial. However, due to their long spans, the affecting seismic excitations might be spatially non-synchronous. This paper presents a study of the effect of non-synchronous seismic excitations on Aswan cable-stayed bridge located at southern Egypt. Nonlinear time history analysis was conducted on a three-dimensional finite element model of the bridge. The spatial variability was represented in terms of the wave passage effect which was simulated via different delay times between the arrivals of the ground motion to bridge supports. Results indicated that spatial variability of earthquake ground motion has, in general, a favorable effect on most bridge response parameters. This is attributed to the flexibility of the overall bridge provided by the flexibility of the bridge structural system and/or by existence of seismic isolation.
Publisher
Springer Science and Business Media LLC
Reference57 articles.
1. Ali H-EM, Abdel-Ghaffar AM (1995) Seismic Passive Control of Cable-Stayed Bridges. Shock and Vibration 2:918721. https://doi.org/10.3233/SAV-1995-2401
2. Abdel Raheem S, Hayashikawa T (2003) Parametric study on steel tower seismic response of cable-stayed bridges under great earthquake ground motion. Struct Eng Earthq Eng 20:25–41
3. Talebinejad I, Fischer C, Ansari F (2011) Numerical evaluation of vibration-based methods for damage assessment of cable-stayed bridges. Comput Aided Civil Infrastruct Eng 26(3):239–251
4. Cucuzza R, Costi C, Rosso MM, Domaneschi M, Marano GC, Masera D (2022) Optimal strengthening by steel truss arches in prestressed girder bridges. Bridg Eng 1478–4637
5. Clemente P, Bongiovanni G, Buffarini G, Saitta F (2019) Structural health status assessment of a cable-stayed bridge by means of experimental vibration analysis. J Civ Struct Heal Monit 9(5):655–669