Title:
Seismic Performance of Hollow Circular Bridge Piers
Author(s):
Y.-K. Yeh, Y. L. Mo, and C. Y. Yang
Publication:
Structural Journal
Volume:
98
Issue:
6
Appears on pages(s):
862-871
Keywords:
bridge; ductility; flexure; piers.
DOI:
10.14359/10753
Date:
11/1/2001
Abstract:
Seismic performance of hollow bridge columns is a significant issue for a high-speed rail project in Taiwan because ductility of these columns varies with the type of lateral reinforcement. In this paper, three hollow circular bridge piers are tested under a constant axial load and a pseudostatic, cyclically reversed horizontal load. Effects of ductility and dissipated energy are investigated. An analytical model is developed to predict the moment-curvature relationship of each section and the load-displacement relationship of the columns. Test results are also compared with those from the proposed analytical model. Ductility factors of the tested specimens range from 2.8 to 9.0, and the analytical model satisfactorily predicts the load-displacement relationship of such columns with flexure failure.