Effects of Bracing Arrangement along the Building Height on Collapse Fragility Curve of Steel Braced Frame Systems
Subject Areas : Analysis of Structure and Earthquake
Ali Seyedkazemi
1
,
Seyed Reza Hashemi Shahandashti
2
1 - Lecturer, Department of Civil Engineering, Ayatollah Amoli Branch, Islamic Azad University, Amol, Iran
2 - Department of Civil Engineering, Ayatollah Amoli Branch, Islamic Azad University, Amol, Iran
Keywords: bracing arrangement, steel braced frame, collapse fragility curve, collapse capacity, incremental dynamic analysis (IDA),
Abstract :
The steel braced frame system is one of the lateral load resisting systems which is used extensively for low- to mid-rise buildings. In this structural system, the braces can be arranged in different forms along the building height due to different reasons such as architectural and structural limitations or design considerations. The bracing arrangement affects the seismic performance of the structural system and each of the elements. In this study, the impact of bracing arrangement along the building height on ultimate failure capacity and collapse fragility curves of steel CBFs is investigated. For this purpose, 4 and 8-story steel CBF buildings with 6 different arrangements of braces were selected and modeled in PERFORM-3D software. The models were then analyzed using the incremental dynamic analysis (IDA) method. Afterwards, the collapse capacity of the models and the uncertainty index were calculated, and the collapse fragility curves were generated. The results show that, by modifying the arrangement of braces without significant changes in lateral stiffness and fundamental period of structure, it is possible to increase the collapse spectral acceleration and decrease the probability of collapse at the maximum considered earthquake intensity.
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