Abstract
AbstractTypical small-to-medium–span highway bridges in China are often installed with economical laminated-rubber bearings that allow for thermal movement of girders and concrete shear keys that restrain transverse girder displacement. However, the damage investigation after the 2008 Wenchuan earthquake had shown that sliding between the girder and the laminated-rubber bearings was a common phenomenon that caused excessive girder displacement and damage to shear keys, expansion joints, and abutments. The bearing sliding can actually act as isolation for the piers, which suffered from a small amount of damage during the earthquake. Therefore, a new seismic design strategy for typical girder bridges has been proposed in which the bearing sliding acts as a fusing mechanism to mitigate the seismic demands of piers, and unseating-prevention devices are used to control the bearing displacement. This paper investigates the seismic performance of three transverse unseating-prevention devices (concrete shear keys...
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