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Earthquakes and Structures Volume 11, Number 6, December 2016 , pages 983-1000 DOI: https://doi.org/10.12989/eas.2016.11.6.983 |
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Evaluation of the effect of smart façade systems in reducing dynamic response of structures subjected to seismic loads |
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Bijan Samali and Pouya Abtahi
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| Abstract | ||
| To date the engineering community has seen facade systems as non-structural elements with high aesthetic value and a barrier between the outdoor and indoor environments. The role of facades in energy use in a building has also been recognized and the industry is also witnessing the emergence of many energy efficient facade systems. This paper will focus on using exterior skin of the double skin facade system as a dissipative movable element during earthquake excitation. The main aim of this study is to investigate the potential of the facade system to act as a damper system to reduce earthquake-induced vibration of the primary structure. Unlike traditional mass dampers, which are usually placed at the top level of structures, the movable/smart double skin facade systems are distributed throughout the entire height of building structures. The outer skin is moveable and can act as a multi tuned mass dampers (MTMDs) that move and dissipate energy during strong earthquake motions. In this paper, using a three dimensional 10-storey building structure as the example, it is shown that with optimal choice of materials for stiffness and damping of brackets connecting the two skins, a substantial portion of earthquake induced vibration energy can be dissipated which leads to avoiding expensive ductile seismic designs. It is shown that the engineering demand parameters (EDPs) for a low-rise building structures subjected to moderate to severe earthquakes can be substantially reduced by introduction of a smart designed double skin system. | ||
| Key Words | ||
| facade; structural control; vibration; damper; earthquake | ||
| Address | ||
| Institute for Infrastructure Engineering, Western Sydney University, Building Z, Second Avenue, Kingwood Campus, Sydney 2747, Australia | ||