Suppression of The Torsional Irregularity of High-rise Buildings Using Viscous Wall Dampers
Künye
DİLSİZ, Abdullah & Ali Ruzi ÖZUYGUR. "Suppression of The Torsional Irregularity of High-rise Buildings Using Viscous Wall Dampers". Bulletin of Earthquake Engineering, (2022): 1-21.Özet
The energy dissipation devices, with their capabilities of seismic demand reduction, are
effective and widely used innovative structural solutions for the seismic protection of
buildings. Viscous Wall Dampers (VWD) are also encouraging for new design opportunities of high-rise buildings such as reinforced concrete (RC) special moment resisting
frames (SMRF). Moreover, retrofitting the existing buildings with VWDs is also possible
without any detrimental effects on the architectural design. This study investigates the effectiveness of VWDs on the dynamic performance of high-rise buildings having torsional
irregularity. A 22-story irregular RC SMRF building is designed and subjected to a seismic
redesign process equipping the building only with VWDs, without changing the dimensions of any other structural elements. The VWDs are placed to suppress the torsional irregularity of the basic design for seismic mitigation objectives. The seismic performances
of the buildings with various configurations of VWDs are evaluated. The location of the
prototype building is selected to be in a highly seismic active area in Turkey. A readily
available and validated computational model for VWD is implemented. The results of
the nonlinear response history analysis (NRHA) have shown that the wall dampers can
effectively reduce the torsional irregularity, as well as the maximum interstory drift ratios
to less than 2% which is set as the target performance objective for the design-based
earthquake level. By installing VWDs, it is demonstrated that the torsional irregularity is
suppressed while the flexible SMRF design for a 22-story building still satisfies the target
performance objectives.