Progressive collapse analysis of seismically designed steel braced frames |
| |
Authors: | Kapil Khandelwal Fahim Sadek |
| |
Affiliation: | a Department of Civil and Env. Eng., University of Michigan, Ann Arbor, MI 48109-2125, United States b Building and Fire Research Laboratory, National Institute of Standards and Technology, Gaithersburg, MD 20899-8611, United States |
| |
Abstract: | The progressive collapse resistance of seismically designed steel braced frames is investigated using validated computational simulation models. Two types of braced systems are considered: namely, special concentrically braced frames and eccentrically braced frames. The study is conducted on previously designed 10-story prototype buildings by applying the alternate path method. In this methodology, critical columns and adjacent braces, if present, are instantaneously removed from an analysis model and the ability of the model to successfully absorb member loss is investigated. Member removal in this manner is intended to represent a situation where an extreme event or abnormal load destroys the member. The simulation results show that while both systems benefit from placement of the seismically designed frames on the perimeter of the building, the eccentrically braced frame is less vulnerable to progressive collapse than the special concentrically braced frame. Improvement in behavior is due to improved system and member layouts in the former compared to the latter rather than the use of more stringent seismic detailing. |
| |
Keywords: | Progressive collapse Seismic detailing Steel frames Eccentrically braced frames Special concentrically braced frames Finite element Macro-model |
本文献已被 ScienceDirect 等数据库收录! |
|