Numerical evaluation of the dynamic response of structures using auxetic-type base isolation.
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Base isolation is a widely-used method to minimise the harmful effects of earthquakes on buildings. Unlike a fixed base building, a building with a base isolation system essentially decouples the superstructure from the substructure resting on the ground. During earthquakes, the superstructure’s relative displacement is significantly reduced, thereby minimising the structural damage incurred. Auxetics, which are materials or structures with a negative Poisson’s ratio, are known for possessing properties such as high energy absorption. Based on the energy absorbing capabilities of auxetic materials, it is proposed that incorporating them into base isolation structures would positively impact on the performance of the system. Therefore, the research aims to investigate the response of structures under seismic loading incorporating re-entrant hexagon layers into their base isolation system. This is assessed by defining and numerically testing the system using finite element models. The models developed for this study represent multi-story structural steel frames combined with fixed base, conventional lead-rubber bearing and auxetic composite base isolation. Differences in the response obtained from the mentioned systems are highlighted. Results indicate that the auxetic base isolation may improve the dynamic response of structures, although a unique performance is not recorded.