防止矩形钢筋混凝土延性墙体整体面外失稳的设计建议

F. Dashti, R. Dhakal, S. Pampanin
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引用次数: 2

摘要

在2010年智利地震和2011年克赖斯特彻奇地震中观测到的面外(OOP)不稳定性引起了人们对结构墙现行设计规定的担忧。这种破坏模式以前在一些受面内加载的壁面试件的实验响应中观察到。因此,对于矩形墙体OOP失稳所对应的极限状态预测所提出的假设,一般仅基于面内荷载作用下的稳定性分析。这些方法解决了受压缩时墙体开裂截面的稳定性问题,因此考虑了钢筋中产生的残余应变水平作为阻止墙体裂缝及时关闭并导致稳定性破坏的参数。新西兰规范要求解决结构墙的OOP不稳定性是基于文献中使用的假设和为数学确定临界应变值而提出的分析方法。在本研究中,使用能够模拟矩形墙体OOP失稳的数值模型进行参数化研究,以评估矩形墙体OOP响应对确定的控制这种破坏机制的不同参数变化的敏感性。分析了墙体长细比(无支高厚比)、边界区域纵向配筋率和墙体长度对墙体OOP响应的影响。在此基础上,提出了预测矩形壁面OOP失稳的简单方程。
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Design recommendations to prevent global out-of-plane instability of rectangular reinforced concrete ductile walls
Observations of out-of-plane (OOP) instability in the 2010 Chile earthquake and in the 2011 Christchurch earthquake resulted in concerns about the current design provisions of structural walls. This mode of failure was previously observed in the experimental response of some wall specimens subjected to in-plane loading. Therefore, the postulations proposed for prediction of the limit states corresponding to OOP instability of rectangular walls are generally based on stability analysis under in-plane loading only. These approaches address stability of a cracked wall section when subjected to compression, thereby considering the level of residual strain developed in the reinforcement as the parameter that prevents timely crack closure of the wall section and induces stability failure. The New Zealand code requirements addressing the OOP instability of structural walls are based on the assumptions used in the literature and the analytical methods proposed for mathematical determination of the critical strain values. In this study, a parametric study is conducted using a numerical model capable of simulating OOP instability of rectangular walls to evaluate sensitivity of the OOP response of rectangular walls to variation of different parameters identified to be governing this failure mechanism. The effects of wall slenderness (unsupported height-to-thickness) ratio, longitudinal reinforcement ratio of the boundary regions and length on the OOP response of walls are evaluated. A clear trend was observed regarding the influence of these parameters on the initiation of OOP displacement, based on which simple equations are proposed for prediction of OOP instability in rectangular walls.
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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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