Theory and experimental verification of a double sliding isolator with variable curvature

A seismic isolation system with traditional sliding bearings, such as friction pendulum isolators (FPIs), is typically a low-frequency system with constant isolation stiffness. Although this type of isolation system may perform well in a regular earthquake, it may incur excessive isolation displacement in earthquakes with strong longperiod components, such as near-fault earthquakes. In order to enhance the isolation performance and prevent an excessive isolation response due to long-period ground motions, in this study, a new type of passive adaptive sliding isolator called a double sliding isolator with variable curvature (DSIVC) is studied both theoretically and experimentally. A DSIVC isolator is mainly composed of an upper and a lower variable-curvature sliding surface and a slider sandwiched between the two sliding surfaces. Due to the variable curvature feature, the isolator stiffness of the DSIVC can vary along with the isolator displacement. Therefore, the DSIVC has an adaptive property that may help avert the resonant-like response exerted by a near-fault earthquake. Furthermore, since a DSIVC has two sliding interfaces, it can double the isolator displacement capacity with a given isolator size, so both the manufacturing costs and installation space of the isolators can be reduced. In this paper, a systematic formula that describes the bi-directional force?displacement relationship of a general DSIVC was comprehensively derived. The formula, in a matrix form, satisfies force equilibrium, constitutive law, and geometric compatibility conditions simultaneously. Also, in order to experimentally verify the derived formula, a cyclic element test with uni- and bi-directional excitations was conducted on a prototype DSIVC. The experimental results of this study not only verify the correctness of the derived formula, but also demonstrate the feasibility and adaptability of the DSIVC isolation technology.

Automated summary

The DSIVC isolator is a novel passive seismic isolation system that adapts its isolation stiffness automatically based on isolator displacement during earthquakes, effectively preventing excessive isolation displacement. With two sliding interfaces, the DSIVC isolator not only reduces manufacturing costs and installation space, but also increases isolator displacement capacity.