Add to ORKGExisting seismic codes are based on force-controlled design or capacity design, using the base shear concept. . The most important parameter in this approach is the behaviour q-factor, which is based on the maximum capacity of structure to dissipate energy during the plastic deformations corresponding to ultimate limit state criterion. In this paper, the existing methods for determining the behaviour factor of moment-resisting steel . frames are reviewed for both regular and irregular in elevation multi-storey moment-resisting steel frames. The . effects of storeys, spans and regularity in elevation of frames on the behaviour factor were considered
This thesis focuses on assessing the seismic performance of steel moment resisting frames (MRFs), wi...
The work herein present has the purpose of investigating the influence of the shear proportioning fa...
The current generation of seismic design codes is based on a linear elastic force-based approach tha...
Existing seismic codes are based on force-controlled design or capacity design, using the base shear...
Current seismic codes are based on force-controlled design or capacity design, using the base shear ...
Simplified expressions to estimate the behavior factor of plane steel moment resisting frames are pr...
According to current seismic codes the structures are calculated using the capacity design procedure...
This paper deals with a critical analysis of the current seismic design criteria provided by Eurocod...
The influence of structural overstrength on the seismic behaviour of steel structures and on the ass...
This study investigates seismic response of the Moment-Resisting-Steel Frames (MRSF) with the archit...
The present paper deals with the seismic behaviour of steel structures which are designed in the att...
In seismic codes, the capacity of structures is calculated using capacity design procedure based on ...
This thesis focuses on assessing the seismic performance of steel moment resisting frames (MRFs), wi...
The work herein present has the purpose of investigating the influence of the shear proportioning fa...
The current generation of seismic design codes is based on a linear elastic force-based approach tha...
Existing seismic codes are based on force-controlled design or capacity design, using the base shear...
Current seismic codes are based on force-controlled design or capacity design, using the base shear ...
Simplified expressions to estimate the behavior factor of plane steel moment resisting frames are pr...
According to current seismic codes the structures are calculated using the capacity design procedure...
This paper deals with a critical analysis of the current seismic design criteria provided by Eurocod...
The influence of structural overstrength on the seismic behaviour of steel structures and on the ass...
This study investigates seismic response of the Moment-Resisting-Steel Frames (MRSF) with the archit...
The present paper deals with the seismic behaviour of steel structures which are designed in the att...
In seismic codes, the capacity of structures is calculated using capacity design procedure based on ...
This thesis focuses on assessing the seismic performance of steel moment resisting frames (MRFs), wi...
The work herein present has the purpose of investigating the influence of the shear proportioning fa...
The current generation of seismic design codes is based on a linear elastic force-based approach tha...