简支RC梁挠度极限状态下特性挠度比较与适用性分析

Ravindra P. Patil, K. Manjunath
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引用次数: 2

摘要

本文用四种不同的方法对给定作用下设计的梁在挠度极限状态下的比较特性挠度和适用性进行了分析。在给定荷载条件下,通过模拟技术生成了每根梁的位移样本。得到的样本用对数正态概率分布建模。根据试样的均值和标准差,确定失效概率(总挠度>Span/250),并用仿真技术确定的失效概率进行校核。计算了所有四种情况下的特征挠度。通过对破坏概率和特征挠度的对比研究,得出梁设计为法兰梁比设计为双配筋梁更能降低挠度极限状态下的破坏概率的结论,并明确了在梁设计为法兰梁的情况下,受拉区布置的钢筋比压缩区布置的钢筋更能有效地减小挠度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of Characteristic Deflection and Serviceability Analysis in Limit State of Deflection of Simply Supported RC Beams
This paper addresses the comparative characteristic deflection and serviceability analysis in limit state of deflection of beam designed for given action in four different ways. The displacement samples for each beam for given loadings conditions, spans, are generated by simulation technique. Obtained samples are modeled with lognormal probability distributions. With the means and standard deviations of the samples, failure probability (total deflection>Span/250) is determined and is checked with failure probability determined by simulation technique. Characteristic deflections in all the four cases are computed. Comparative study of failure probability and characteristic deflections leads to the conclusion that designing the beam as flanged beam than the doubly reinforced beam reduces the failure probability in limit state of deflection to a grater extent further it becomes clear that in case of flanged beam steel provided in tension zone will be more effective in reducing deflection than that in compressive zone.
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