Combined SCD-SPSW system subjected to ground excitation

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY
Mohammad Boshagh, Mojtaba Labibzadeh, Farhad Hosseinlou, Abbas Rezaeian
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引用次数: 0

Abstract

Purpose In this study, the application of a novel combined steel curved damper (SCD) and steel plate shear wall (SPSW) system in the 5-, 10- and 15-storey steel moment-resisting frames (SMR) subjected to earthquake excitation has been investigated. The proposed system is called here as the SMR-WD (steel moment resisting–wall damper). Design/methodology/approach At the beginning of this research, an SMR-W and an SMR-D are separately modeled in ABAQUS software and verified against the available experimental data. After that, three different heights SMR-WD systems (5-, 10- and 15-storey) are designed and simulated. Then, their performances are examined and compared to the corresponding SMR-W under the effects of six actual earthquake records. Findings The obtained results show that the proposed system increases the mean values of the base shear for 5-, 10- and 15-storey SMR-WD equal to 27, 20.15 and 16.51%, respectively compared to the corresponding SMR-W. Moreover, this system reduces the drift of the floors so that the reduction in the average values of maximum drift for 5-, 10- and 15-storey SMR-WD is equal to 10, 7 and 29%, respectively with respect to the corresponding SMR-W. The results also reveal that the considered system dissipates more energy than SMR-W so that the increase in the mean values of the energy absorption for 5-, 10- and 15-storey SMR-WD is 30.8, 25.6 and 41.3%, respectively when compared to the SMR-W. Furthermore, it is observed that SMR-WD has a positive effect on the seismic performance of the link beams and panel zones of the frames. By increasing the height of the structure in the SMR-WD, the energy dissipation and base shear force increases and the drift of floors decreases. Hereupon, the proposed SMR-WD system is more useful for tall buildings than SMR-W frames. Originality/value For the first time, the application of a novel combined steel curved damper (SCD) and steel plate shear wall (SPSW) system in the 5-, 10- and 15-storey steel moment-resisting frames (SMR) subjected to earthquake excitation has been investigated.
受地激励的SCD-SPSW组合系统
本文研究了一种新型的钢弯曲阻尼器(SCD)和钢板剪力墙(SPSW)组合系统在5层、10层和15层钢抗矩框架(SMR)中的应用。所提出的系统在这里被称为SMR-WD(钢抗矩墙阻尼器)。设计/方法/方法在本研究开始时,在ABAQUS软件中分别对SMR-W和SMR-D进行建模,并根据现有的实验数据进行验证。之后,设计和模拟了三种不同高度的SMR-WD系统(5层、10层和15层)。然后,在六个实际地震记录的作用下,对其性能进行了检验,并与相应的SMR-W进行了比较。结果表明:与相应的SMR-W相比,该体系可使5层、10层和15层SMR-WD的基底剪力均值分别提高27.5%、20.15%和16.51%;此外,该系统减少了楼层的漂移,使得5层、10层和15层的SMR-WD的最大漂移平均值相对于相应的SMR-W分别减少了10%、7%和29%。结果还表明,考虑的系统比SMR-W耗散更多的能量,5层、10层和15层的SMR-WD的能量吸收平均值分别比SMR-W增加30.8%、25.6%和41.3%。此外,还观察到SMR-WD对框架的连接梁和面板区域的抗震性能有积极的影响。随着结构高度的增加,结构的耗能和基底剪力增大,楼板漂移减小。因此,SMR-WD体系比SMR-W框架更适用于高层建筑。本文首次研究了一种新型的钢弯曲阻尼器(SCD)和钢板剪力墙(SPSW)组合系统在5层、10层和15层钢抗矩框架(SMR)中的应用。
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
International Journal of Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
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