Seismic Response of Triple Friction Pendulum Bearing under Near-Fault Ground Motions

Abstract: The seismic response of a stiff single-story and a flexible multi-story building isolated with triple friction pendulum bearing (TFPB) are investigated under the pulse-like (near-fault, NF-Pulse) and (NF-No Pulse) NF nonpulse ground motions. By varying the geometric parameters, such as the effective spherical surface radius, or by specifying different friction coefficients for each surface, one can adjust the behavior of the bearing. Consequently, the stiffness and damping ratio of the system can be optimized … Show more

“…However, previous studies have shown that isolated structures are vulnerable to near-fault ground motions, especially the pulse-like motions. These excitations can impose significant demands, especially large isolator displacement, on the seismic responses of isolated structures, which can affect the feasibility of project [3].…”

“…Moreover, the optimum ranges for coefficient of friction and effective radius of curvature of all sliding surfaces are provided [3].…”

Near-fault seismic performance of triple variable friction pendulum bearing

“…However, previous studies have shown that isolated structures are vulnerable to near-fault ground motions, especially the pulse-like motions. These excitations can impose significant demands, especially large isolator displacement, on the seismic responses of isolated structures, which can affect the feasibility of project [3].…”

“…Moreover, the optimum ranges for coefficient of friction and effective radius of curvature of all sliding surfaces are provided [3].…”

Near-fault seismic performance of triple variable friction pendulum bearing

The Effects of Near-fault Ground Motions on Optimized Triple Friction Pendulum in Asymmetric Superstructures

Torsional Response of a Building Isolated with Triple Friction Pendulum Bearings under Stochastic Ground Motion Excitation