A modal seismic design procedure based on a selected level of ductility demand

M. Baradaran, F. Behnamfar
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引用次数: 1

Abstract

Determination of seismic design forces of structures is performed by the building codes usually using response reduction (or behaviour) factors that incorporate indeterminacy and ductility capacity of lateral bearing systems. In this procedure story drifts are checked as a final design step approximately preventing stories from assuming excessive ductility demands, or seismic damage. If this procedure is reversed, a more logical seismic design approach may be developed by starting with a ductility-controlled procedure. It is the incentive of this research in which by using a large number of earthquakes, first nonlinear acceleration spectra are developed for different levels of ductility demand. Then an energy-based modal procedure is developed in which the system ductility demand is distributed between the important vibration modes based on their contribution. Finally, the developed method is applied to seismic design of several buildings selected from both regular and irregular structural systems. Comparison with a sample code design establishes success of the method in developing a more rational seismic design.
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一种基于延性需求选定水平的模态抗震设计程序
结构抗震设计力的确定由建筑规范执行,通常使用包含横向承载系统的不确定性和延性能力的响应折减(或性能)因素。在该程序中,作为最终设计步骤,对层间偏移进行检查,大致防止层间出现过度延性要求或地震损伤。如果该程序被颠倒,则可以从延性控制程序开始,开发出一种更符合逻辑的抗震设计方法。这项研究的动机是,通过使用大量地震,针对不同延性需求水平开发了第一个非线性加速度谱。然后开发了一个基于能量的模态程序,其中系统延性需求根据其贡献分布在重要的振动模式之间。最后,将所开发的方法应用于从规则和不规则结构体系中选择的几栋建筑的抗震设计。与示例代码设计的比较表明,该方法在开发更合理的抗震设计方面取得了成功。
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来源期刊
CiteScore
2.50
自引率
17.60%
发文量
14
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