Add to ORKGIn the present paper the development, calibration and experimental validation of an enhanced component based model of a dissipative steel link connecting a reinforced concrete wall and a steel gravity frame is presented. The structural consists in an hybrid coupled shear wall (HCSW), developed within the INNOHYCO project (Dall’Asta et al., 2014), obtained coupling an RC wall with two side steel columns by means of steel links where the energy dissipation takes place. The experimental results carried on a subsystem representing a portion of the shear wall, the dissipative link and one side column, showed that the global dissipative behavior is strongly affected by the characteristics of the link-to-column connection. In particular th...
An innovative hybrid coupled shear wall (HCSW) system obtained coupling a reinforced concrete wall w...
This paper investigates through nonlinear static and dynamic analyses the behaviour of a newly intro...
An innovative hybrid steel concrete coupled wall made by a single reinforced concrete wall connected...
In the present paper the development, calibration and experimental validation of an enhanced compon...
In this paper the development, calibration and experimental validation of a component-based model of...
In the present paper the development, calibration and experimental validation of two component-based...
In this work innovative hybrid coupled shear walls (HCSW) are considered, their design is discussed,...
Steel and concrete hybrid systems are obtained through a combination in series of steel elements and...
An innovative seismic resistant hybrid coupled shear wall (HCSW) developed within the European RFCS ...
This paper presents an improved approach to a newly suggested design procedure of an innovative Hybr...
The INNO-HYCO research project aims at defining innovative steel and reinforced concrete hybrid syst...
Innovative hybrid coupled shear wall (HCSW) systems as proposed within the European RFCS project INN...
An innovative hybrid coupled shear wall (HCSW) system obtained coupling a reinforced concrete wall w...
This paper investigates through nonlinear static and dynamic analyses the behaviour of a newly intro...
An innovative hybrid steel concrete coupled wall made by a single reinforced concrete wall connected...
In the present paper the development, calibration and experimental validation of an enhanced compon...
In this paper the development, calibration and experimental validation of a component-based model of...
In the present paper the development, calibration and experimental validation of two component-based...
In this work innovative hybrid coupled shear walls (HCSW) are considered, their design is discussed,...
Steel and concrete hybrid systems are obtained through a combination in series of steel elements and...
An innovative seismic resistant hybrid coupled shear wall (HCSW) developed within the European RFCS ...
This paper presents an improved approach to a newly suggested design procedure of an innovative Hybr...
The INNO-HYCO research project aims at defining innovative steel and reinforced concrete hybrid syst...
Innovative hybrid coupled shear wall (HCSW) systems as proposed within the European RFCS project INN...
An innovative hybrid coupled shear wall (HCSW) system obtained coupling a reinforced concrete wall w...
This paper investigates through nonlinear static and dynamic analyses the behaviour of a newly intro...
An innovative hybrid steel concrete coupled wall made by a single reinforced concrete wall connected...