Deformation-dependent peak floor acceleration for the performance-based design of nonstructural elements attached to R/C structures

Abstract: This study introduces a simple and efficient method to determine the peak floor acceleration (PFA) at different performance levels for three types of plane reinforced concrete (RC) structures: moment-resisting frames (MRFs), infilled–moment-resisting frames (I-MRFs), and wall-frame dual systems (WFDSs). By associating the structural maximum PFA response with the deformation response, the acceleration-sensitive nonstructural components, and the building contents, can be designed to adhere to the performance-bas… Show more

Simplified pushover-based seismic loss assessment for existing infilled frame structures

Simplified pushover-based seismic loss assessment for existing infilled frame structures

Self-centering hybrid moment braced frame: Stiffness control and the self-centering acceleration adverse effect

Integration of peak seismic floor velocities and accelerations into the performance-based design of steel structures