The fishbone model is a simplified numerical model for moment-resisting frames that is capable of modelling the effects of column-beam strength and stiffness ratios. The applicability of the fishbone model in simulating the seismic responses of reinforced concrete moment-resisting frames of different sets of column-beam strength and stiffness ratios are evaluated through nonlinear static, dynamic and incremental dynamic analysis on six prototype buildings of 4-, 8-and 12-stories. The results show that the fishbone model is practically accurate enough for reinforced concrete frames, although the assumption of equal joint rotation does not hold in all cases. In addition to the ground motion characteristics and the number of stories in the structures, the accuracy of the model also varies with the column-beam stiffness and strength ratios. The model performs better for strong column-weak beam frames, in which the lateral drift patterns are better controlled by the continuous stiffness provided by the strong columns. When the inelastic deformation is large, the accuracy of the model may be subjected to large record-to-record variability. This is especially the case for frames of weak columns.
类型: 期刊论文
作者: Qu Zhe,Gong Ting,Li Qiqi,Wang Tao
来源: Earthquake Engineering and Engineering Vibration 2019年02期
年度: 2019
分类: 基础科学,工程科技Ⅱ辑
专业: 建筑科学与工程
单位: Key Laboratory of Earthquake Engineering and Engineering Vibration, Institute of Engineering Mechanics,China Earthquake Administration,China Architecture Design & Research Group
基金: Scientific Research Fund of Institute of Engineering Mechanics,China Earthquake Administration under Grant Nos.2016A05 and 2016A06,National Natural Science Foundation of China under Grant No.51478441
分类号: TU375.4
页码: 315-330
总页数: 16
文件大小: 3969K
下载量: 30
本文来源: https://www.lunwen66.cn/article/b8d2fdf5c8bc04a073734b29.html