Among the various seismic retrofitting techniques, steel exoskeletons are distinguished by their non-invasive nature. However, only a few consolidated methodologies have been proposed for their design. The approach of several standard codes is based on the classification of elements according to their relative stiffness. In this way, a ratio between the stiffness of the exoskeletons and that of the building is taken as the main design parameter. In this study, a performancebased design approach was employed, with the inter-story drift of the building as the performance target. A sensitivity analysis was conducted to assess the impact of different inter-story drift thresholds on the structural behavior of the buildingexoskeleton system. For each threshold, an optimization process was conducted to identify the optimal number of exoskeletons, their placement around the building, and the dimensions of their elements. Finally, the stiffness ratios were determined for each optimal configuration and were compared to the threshold provided by the regulations. This comparison yielded interesting insights into the differences in the approaches.
Stiffness Ratio Evaluation of Steel Exoskeletons Through Performance-Based Optimal Design / Olivo, J.; Cucuzza, R.; Movahedi Rad, M. M.; Domaneschi, M.; Ferro, G. A.; Marano, G. C.. - 59:(2024), pp. 438-445. (Intervento presentato al convegno 7th International Conference on Material Strength and Applied Mechanics, MSAM 2024 tenutosi a Gyor(Hun) nel 29 July 2024 through 1 August 2024) [10.3233/ATDE240577].
Stiffness Ratio Evaluation of Steel Exoskeletons Through Performance-Based Optimal Design
Cucuzza R.;Domaneschi M.;Ferro G. A.;Marano G. C.
2024
Abstract
Among the various seismic retrofitting techniques, steel exoskeletons are distinguished by their non-invasive nature. However, only a few consolidated methodologies have been proposed for their design. The approach of several standard codes is based on the classification of elements according to their relative stiffness. In this way, a ratio between the stiffness of the exoskeletons and that of the building is taken as the main design parameter. In this study, a performancebased design approach was employed, with the inter-story drift of the building as the performance target. A sensitivity analysis was conducted to assess the impact of different inter-story drift thresholds on the structural behavior of the buildingexoskeleton system. For each threshold, an optimization process was conducted to identify the optimal number of exoskeletons, their placement around the building, and the dimensions of their elements. Finally, the stiffness ratios were determined for each optimal configuration and were compared to the threshold provided by the regulations. This comparison yielded interesting insights into the differences in the approaches.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2996516