Add to ORKGThe main aim of this work is to understand how the prediction of the seismic performance of mo-ment-resisting (MR) steel frames depends on the modelling of their dissipative zones when the structure geometry (number of stories and bays) and seismic excitation source vary. In particular, a parametric analysis involving 4 frames was carried out, and, for each one, the full-strength beam-to-column connections were modelled according to 4 numerical approaches with different degrees of sophistication (Smooth Hysteretic Model, Bouc-Wen, Hysteretic and simple Elastic-Plastic models). Subsequently, Incremental Dynamic Analyses (IDA) were performed by considering two different earthquakes (Spitak and Kobe). The preliminary results collected so far ...
The present paper presents an evaluation of the influence of joint slippage on the seismic response ...
The seismic performance of steel frames can be efficiently evaluated via the Incremental Dynamic Ana...
Background: Forthe reliable prediction of the non-linear response of structures, severe seismic even...
The main aim of this work is to understand how the prediction of the seismic performance of moment-r...
In this work, the prediction of the seismic performance of moment-resisting (MR) steel frames with f...
The seismic response of steel moment resisting frames (MRFs) is influenced by the behavior of joints...
Evaluation of seismic performance of moment-resisting (MR) steel frames is usually carried out assum...
In this work the capability of global models in reproducing the seismic behaviour of steel moment-re...
Background: The deformation capacity of beam-to-column connections strongly influences the robustnes...
peer reviewedRobustness of Moment Resistant Frames (MRFs) designed according to current seismic code...
The present paper presents an evaluation of the influence of joint slippage on the seismic response...
The present paper presents an evaluation of the influence of joint slippage on the seismic response ...
The seismic performance of steel frames can be efficiently evaluated via the Incremental Dynamic Ana...
Background: Forthe reliable prediction of the non-linear response of structures, severe seismic even...
The main aim of this work is to understand how the prediction of the seismic performance of moment-r...
In this work, the prediction of the seismic performance of moment-resisting (MR) steel frames with f...
The seismic response of steel moment resisting frames (MRFs) is influenced by the behavior of joints...
Evaluation of seismic performance of moment-resisting (MR) steel frames is usually carried out assum...
In this work the capability of global models in reproducing the seismic behaviour of steel moment-re...
Background: The deformation capacity of beam-to-column connections strongly influences the robustnes...
peer reviewedRobustness of Moment Resistant Frames (MRFs) designed according to current seismic code...
The present paper presents an evaluation of the influence of joint slippage on the seismic response...
The present paper presents an evaluation of the influence of joint slippage on the seismic response ...
The seismic performance of steel frames can be efficiently evaluated via the Incremental Dynamic Ana...
Background: Forthe reliable prediction of the non-linear response of structures, severe seismic even...