This study concerns the optimum design of a passive seismic control strategy, based on the use of a Fluid Viscous Damper as dissipative connection in a wall-frame structural system. The two substructures, the wall and the frame, are modelled by single degree of freedom systems, and are subjected to a seismic motion represented by a filtered nonstationary stochastic process. The optimum design of the dissipative connection is developed using a "global protection strategy" which aims at reducing earthquake effects on both the substructures.
Multi-objective Optimization of Fluid Viscous Dampers in Wall-frame Systems / Fiore, Alessandra. - STAMPA. - (2015), pp. 158-163. (Intervento presentato al convegno 4th International Conference on Materials Engineering for Advanced Technologies, ICMEAT 2015 tenutosi a London, UK nel June 27-28, 2015).
Multi-objective Optimization of Fluid Viscous Dampers in Wall-frame Systems
Alessandra Fiore
2015-01-01
Abstract
This study concerns the optimum design of a passive seismic control strategy, based on the use of a Fluid Viscous Damper as dissipative connection in a wall-frame structural system. The two substructures, the wall and the frame, are modelled by single degree of freedom systems, and are subjected to a seismic motion represented by a filtered nonstationary stochastic process. The optimum design of the dissipative connection is developed using a "global protection strategy" which aims at reducing earthquake effects on both the substructures.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
