Theoretical Studies of the XY-FP Seismic Isolation Bearing for Bridges
Publication: Journal of Bridge Engineering
Volume 15, Issue 6
Abstract
The XY-friction pendulum (XY-FP) bearing is a modified friction pendulum that consists of two perpendicular steel rails with opposing concave surfaces and a connector. The connector resists tensile forces, allows independent sliding in the two orthogonal directions and enables small relative rotation of the rails about a vertical axis. Theoretical analyses were undertaken to study applications of XY-FP bearings to bridges. Two of the key features of the XY-FP bearing for the seismic isolation of bridges are: (1) resistance to tensile axial loads and (2) opportunity to provide a different period of isolation in each principal direction of the isolated structure. Numerical analyses on an XY-FP isolated bridge with different isolation periods in the principal directions subjected to near-field ground motions demonstrated the effectiveness of XY-FP bearings. Furthermore, numerical analyses that investigated the sensitivity of XY-FP isolation system response to differences in the coefficients of friction of the bearings demonstrated that bounding analysis using upper and lower estimates of the coefficients of friction will generally provide conservative estimates of displacements and shear forces for isolation systems with nonuniform isolator properties.
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Acknowledgments
Financial support for this project was provided in part by Earthquake Protection Systems (EPS), Inc., Vallejo, Calif. This support is gratefully acknowledged. Any opinions, findings and conclusions or recommendations expressed in this manuscript are those of the writers alone.
References
AASHTO. (1999). Guide specifications for seismic isolation design, Washington, D.C.
Applied Technology Council (ATC). (1986). “Seismic design guidelines for highway bridges.” Rep. No. 6, Redwood City, Calif.
Bouc, R. (1971). “Modele mathematique d’hysteresis.” Acustica, 24, 16–25 (in French).
Constantinou, M. C., Mokha, A. S., and Reinhorn, A. M. (1990). “Experimental and analytical study of combined sliding disc bearings and helical steel spring isolation system.” Rep. No. NCEER-90-0019, National Center for Earthquake Engineering Research, State Univ. of New York at Buffalo, Buffalo, N.Y.
Huang, Y. N., Whittaker, A. S., Luco, N., and Hamburger, R. O. (2010). “Scaling earthquake ground motions for performance-based design.” J. Struct. Eng., to be published.
Marin-Artieda, C. C., Whittaker, A. S., and Constantinou, M. C. (2007). “Experimental and analytical study of the XY-friction pendulum (XY-FP) bearing for bridge applications.” Rep. No. MCEER-07-0009, MCEER, State Univ. of New York at Buffalo, Buffalo, N.Y.
Marin-Artieda, C. C., Whittaker, A. S., and Constantinou, M. C. (2009). “Experimental study of the XY-friction pendulum (XY-FP) bearing for bridge applications.” J. Bridge Eng., 14(3), 193–202.
Mokha, A., Constantinou, M. C., and Reinhorn, A. M. (1991). “Further results on the friction properties of Teflon bearings.” J. Struct. Eng., 117(2), 622–626.
Mosqueda, G., Whittaker, A. S., and Fenves, G. L. (2004). “Characterization and modeling of friction pendulum bearing subjected to multiple components excitations.” J. Struct. Eng., 130(3), 433–442.
Roussis, P. C., and Constantinou, M. C. (2006a). “Experimental and analytical studies of structures seismically isolated with an uplift-restraining friction pendulum system.” Earthquake Eng. Struct. Dyn., 35(5), 595–611.
Roussis, P. C., and Constantinou, M. C. (2006b). “Uplift-restraining friction pendulum seismic isolation system.” Earthquake Eng. Struct. Dyn., 35(5), 577–593.
Tsopelas, P., Constantinou, M. C., and Reinhorn, A. M. (1994). “3D-BASIS-ME: Computer program for nonlinear dynamic analysis of seismically isolated single and multiple structures and liquid storage tanks.” Rep. No. NCEER-94-0010, National Center for Earthquake Engineering Research, State Univ. of New York at Buffalo, Buffalo, N.Y.
Wen, Y. K. (1976). “Method of random vibration of hysteretic systems.” J. Engrg. Mech. Div., 102(2), 249–263.
Information & Authors
Information
Published In
Journal of Bridge Engineering
Volume 15 • Issue 6 • November 2010
Pages: 631 - 638
Copyright
© 2010 ASCE.
History
Received: Dec 2, 2008
Accepted: Jan 21, 2010
Published online: Jan 28, 2010
Published in print: Nov 2010
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