Optimal control on structural response using outrigger braced frame system under lateral loads

IF 3 Q2 ENGINEERING, CIVIL
Kashif Salman, Dookie Kim, A. Maher, A. Latif
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引用次数: 9

Abstract

ABSTRACT This paper considers the static and dynamic analysis of a high-rise structure under the lateral loads. Firstly, the static analysis was carried out for four different structural systems (i.e. moment-resisting frame, building frame, and outrigger braced frame (OBF) system). Under the same static loading, it was found that the outrigger braced system provides an optimal control to high-rise structure. To earn these results, an analytical procedure was carried out that manifests the efficiency induced by the bracing system. Secondly, dynamic analysis was considered to evaluate the vibration response of a tall building. To this end, the outrigger system was compared with the Pendulum tuned mass dampers (PTMD). The parametric analysis investigates that the outrigger system provides an optimal reduction of 33% for one and 60% for two outriggers in the top displacement and drift response of the structure. This alteration in the response was verified using an analytical solution for the top and middle of the structure. The acceleration reduction capacity of outriggers was found to be 40% and PTMD with 35% respectively. Based on the comparative static and dynamic analysis OBF was found to be an effective addition to the sway frame.
支腿支撑框架体系在横向荷载作用下的结构响应优化控制
摘要本文考虑了高层结构在侧向荷载作用下的静力和动力分析。首先,对四种不同的结构体系(即抗弯框架、建筑框架和支腿支撑框架)进行了静力分析。结果表明,在相同的静载荷作用下,支腿支撑体系能对高层结构进行最优控制。为了获得这些结果,进行了一个分析程序,该程序显示了支撑系统引起的效率。其次,对高层建筑的振动响应进行了动力分析。为此,将支腿系统和摆锤调谐质量阻尼器(PTMD)进行了比较。参数分析表明,支腿系统在结构的顶部位移和漂移响应中提供了一个支腿33%和两个支腿60%的最佳降低。使用结构顶部和中部的分析解决方案验证了响应的这种变化。支腿的加速度降低能力分别为40%和35%。根据静态和动态的比较分析,发现OBF是对摇摆框架的有效补充。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.90
自引率
9.50%
发文量
24
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