An experimental study of a seismically isolated and a comparable non-i
solated bridge is presented. The bridge model featured flexible piers,
weighed 158 kN and was tested on a shake table with an array of real
and simulated seismic motions with peak acceleration in the range 0.1-
1.1g. When isolated, the bridge deck was supported by four spherically
shaped sliding bearings (known as Friction Pendulum System or FPS bea
rings) with friction coefficient under dynamic conditions in the range
0.07-0.12. The experimental results demonstrated a substantial improv
ement in the ability of the isolated bridge to sustain all levels of s
eismic excitation under elastic conditions.