Title of article
EVALUATION THE EFFECT OF STRONG COLUMN-WEAK BEAM RATIO ON SEISMIC PERFORMANCE OF OPTIMALLY DESIGNED STEEL MOMENT FRAMES
Author/Authors
Nabati, A. Department of Civil Engineering - Urmia University, Urmia , Gholizadeh, S. Department of Civil Engineering - Urmia University, Urmia
Pages
15
From page
595
To page
609
Abstract
The present work is aimed at assessing the impact of strong column-weak beam (SCWB) criterion on seismic performance of optimally designed steel moment frames. To this end, different SCWB ratios are considered for steel special moment resisting frame (SMRF) structures and performance-based design optimization process is implemented with the aid of an efficient metaheuristic. The seismic collapse performance of the optimally designed SMRFs is assessed by performing incremental dynamic analysis (IDA) and determining their adjusted collapse margin ratios. Three design examples of 5-, 10-, and 15-story SMRFs are presented to illustrate the efficiency of the proposed methodology.
Keywords
metaheuristic structural optimization , strong column-weak beam rule , performance-based design , seismic collapse performance , steel moment frame
Journal title
International Journal of Optimization in Civil Engineering
Serial Year
2020
Record number
2546458
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