Affiliation:
1. University of Blida 01
2. Groupe d’Infrastructures de Travaux Maritimes
Abstract
Bridges are commonly used lifelines; they play an important role in the economic activity of a city or a region and their role can be crucial in a case of a seismic event since they allow the arrival of the first aid. Reinforced concrete (RC) bridges are worldwide used type view their durability, flexibility and economical cost. In fact, their behavior under seismic loading was the aim of various studies. In the present study the effect of two structural parameters i.e. the height and the type of piers of reinforced concrete bridges on seismic response is investigated. For that reason, different multi-span continuous girder bridges models with various geometrical parameters are considered. Then, non-linear dynamic analyses are performed based on two types of piers which are: multiple columns bent and wall piers with varying heights. In this approach, a serie of 40 ground motions records varying from weak to strong events selected from Building Research Institute (BRI) strong motion database are used including uncertainty in the soil and seismic characteristics. Modelling results put most emphasis on the modal periods and responses of the top pier displacements, they show the influence of the considered parameters on the behavior of such structures and their impact on the strength of reinforced concrete bridges.
Publisher
Trans Tech Publications, Ltd.
Reference25 articles.
1. B. A. Olmos, J. M. Jara, M. Jara, Influence of some relevant parameters in the seismic vulnerability of RC bridges, Journal of Earthquakes and Structures.3 (2012) 365-381.
2. C. Zelaschi, R. Monteiro,R.Pinho, Parametric characterization of RC bridges for seismic assessment purposes,J. Structures. 7 (2016)14-24.
3. M. A. Zanini, R.Morbin, C. Pellegrino, C.Modena, Influence of relevant parameters on seismic vulnerability assessment of bridges, Proceedings of the 7thInternational Conference on Bridge Maintenance, Safety and Management IABMAS2014, Shanghai, China (2014).
4. D. Cardone Disgg, Seismic risk assessment of highway bridges. Proceedings of the 1st us-Italy workshop on seismic design and assessment of bridges, Pavia(2007).
5. A. Kibboua, F. Kehila, H. Bechtoula, Y. Mehani, M. Remki, Development of fragility curves for seismic evaluation of a reinforced concrete bridge. Proceedings of the Second European Conference on Earthquake Engineering and Seismology, Istanbul (2014).
Cited by
5 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献