A study concerning a double-storey extension on top of an existing reinforced concrete (R/C) apartment building is carried out for two different steel structural solutions. A traditional bracing configuration, and a dissipative bracing technology incorporating pressurised fluid viscous spring-dampers, are selected for the two hypotheses. The gravity load-bearing system is assumed to be coincident, in order to directly compare the seismic response capacities of the bracing systems. Furthermore, the following mutual design objectives are fixed: attaining operational, and immediate occupancy non-structural performance levels at frequent design earthquake and serviceability design earthquake levels, respectively; and limiting strengthening interventions on the R/C structure to jacketing maximum 20% of columns, and adding a thin R/C slab over the foundations. These objectives are reached at virtually coinciding costs. On the other hand, the viscous-dissipative bracing design shows substantially higher seismic performance at basic design and maximum considered earthquake levels, as well as lower architectural intrusion, as compared to the traditional bracing solution. Copyright © 2015 Inderscience Enterprises Ltd.

Traditional and viscous dissipative steel braced top addition strategies for a R/C building

SORACE, Stefano;
2015-01-01

Abstract

A study concerning a double-storey extension on top of an existing reinforced concrete (R/C) apartment building is carried out for two different steel structural solutions. A traditional bracing configuration, and a dissipative bracing technology incorporating pressurised fluid viscous spring-dampers, are selected for the two hypotheses. The gravity load-bearing system is assumed to be coincident, in order to directly compare the seismic response capacities of the bracing systems. Furthermore, the following mutual design objectives are fixed: attaining operational, and immediate occupancy non-structural performance levels at frequent design earthquake and serviceability design earthquake levels, respectively; and limiting strengthening interventions on the R/C structure to jacketing maximum 20% of columns, and adding a thin R/C slab over the foundations. These objectives are reached at virtually coinciding costs. On the other hand, the viscous-dissipative bracing design shows substantially higher seismic performance at basic design and maximum considered earthquake levels, as well as lower architectural intrusion, as compared to the traditional bracing solution. Copyright © 2015 Inderscience Enterprises Ltd.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/1069625
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