System overstrength factor induced by interaction between structural reinforced concrete walls, floors and gravity frames: Analytical formulation

R. E. Sedgh, R. Dhakal, C. Lee, A. Carr
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引用次数: 1

Abstract

In multi-storey structural wall buildings, the structural walls are required to resist additional shear force due to their interactions with the floors and gravity-resisting system, which is not fully catered for in current seismic design provisions and assessment guidelines. This paper scrutinizes the mechanics of the interaction between structural reinforced concrete (RC) structural walls, floors and gravity frames in multi-storey RC structural wall buildings during elastic and nonlinear response phases. It also investigates the implications of this interaction on design of multi-story RC wall buildings. Generic expressions are derived to predict the drift and rotation profiles of multi-storey RC wall buildings. Then, a simple hand calculation method is developed to estimate the system (moment) overstrength of multi-storey RC wall buildings due to system (wall-floor-frames) interaction. The proposed method is applied to a prototype building with different slab dimensions and stiffness, and verified by comparing with the system overstrength factor obtained using finite element analysis. The simplified method estimates, and the nonlinear finite element analyses results agree, that a system overstrength factor of 1.7 can be used to account for the 3D interaction between the structural walls, floors and gravity frames in design and assessment of typical ductile RC wall buildings.
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结构钢筋混凝土墙、楼板和重力框架相互作用引起的系统超强度因子:解析公式
在多层结构墙建筑中,由于结构墙与楼板和重力抵抗系统的相互作用,结构墙需要抵抗额外的剪力,而当前的抗震设计规定和评估指南并未完全满足这一要求。本文详细研究了多层钢筋混凝土结构墙建筑中钢筋混凝土结构墙体、楼板和重力框架在弹性和非线性响应阶段的相互作用力学。它还研究了这种相互作用对多层RC墙建筑设计的影响。推导了预测多层钢筋混凝土墙结构位移和旋转剖面的通用表达式。然后,发展了一种简单的手工计算方法来估计多层RC墙建筑由于系统(墙-楼板-框架)相互作用而产生的系统(力矩)超强。将所提出的方法应用于具有不同板尺寸和刚度的原型建筑,并通过与有限元分析获得的系统超强因子进行比较来验证。简化方法估计和非线性有限元分析结果一致认为,在典型延性钢筋混凝土墙建筑的设计和评估中,1.7的系统超强系数可用于解释结构墙、楼板和重力框架之间的三维相互作用。
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
CiteScore
2.50
自引率
17.60%
发文量
14
期刊最新文献
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