带保险销的钢板剪力墙的循环性能

IF 1.9 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Advances in Materials Research-An International Journal Pub Date : 2021-09-01 DOI:10.12989/AMR.2021.10.3.245
Mahdi Usefvand, A. Maleki, B. Alinejad
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引用次数: 1

摘要

组合钢板剪力墙是一种高延性、高耗能的抗震体系。C-SPSW系统中的能量耗散是通过连接梁和SPSW的弯曲和剪切行为来实现的。在低地震水平下,通过连接梁进行能量耗散和楼层位移控制,在地震后很容易更换。在这项研究中,提出了一个耦合钢板剪力墙与屈服保险丝。该系统采用了高延性的熔丝销单元代替了连接梁,具有良好的地震后可替换性。在本研究中,研究了四种在循环荷载作用下具有I形连接梁、减小梁截面的I形连接梁和带RBS的箱形连接梁和保险销单元的钢板剪力墙耦合模型。通过ABAQUS软件,采用有限元方法建立了C-SPSW模型。为了验证有限元模型的结果,对两个连接钢板剪力墙的试件进行了验证。有限元分析得到的磁滞曲线与实验曲线的比较结果表明,有限元模型对C-SPSW的磁滞行为提供了很好的预测。C-SPSW模型的结果表明,与其他C-SPSW相比,熔丝引脚导致极限容量增加了约19%,能量耗散增加了20%。
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Cyclic behavior and performance of a coupled-steel plate shear wall with fuse pin
Coupled steel plate shear wall (C-SPSW) is one of the resisting systems with high ductility and energy absorption. Energy dissipation in the C-SPSW system is accomplished by the bending and shear behavior of the link beams and SPSW. Energy dissipation and floor displacement control occur through link beams at low seismic levels, easily replaced after an earthquake. In this study, a coupled steel plate shear wall with a yielding fuse is presented. The system uses a high-ductility fuse pin element instead of a link beam, which has good replaceability after the earthquake. In this study, four models of coupled steel plate shear walls were investigated with I-shaped link beam, Ishaped link beam with reduced beam section (RBS), box-link beam with RBS, and fuse pin element under cyclic loading. The finite element method was used through ABAQUS software to develop the C-SPSW models. To verify the finite element model results, two test specimens of coupled steel plate shear walls were validated. Comparative results of the hysteresis curves obtained from the finite element analysis with the experimental curves indicated that the finite element model offered a good prediction of the hysteresis behavior of C-SPSW. The results of the C-SPSW models revealed that the fuse pin caused an increase in the ultimate capacity by approximately 19% and the energy dissipation by 20% compared to the other C-SPSW.
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来源期刊
Advances in Materials Research-An International Journal
Advances in Materials Research-An International Journal MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
3.50
自引率
27.30%
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0
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