Assessment of Effective and Minimal Slab Widths for Evaluating the Shear Capacity of RC Overhang Slabs

IF 0.7 Q4 CONSTRUCTION & BUILDING TECHNOLOGY
Dr. José Javier Veganzones Muñoz, C. Pacoste, R. Karoumi
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引用次数: 0

Abstract

Abstract The effective width is a relevant parameter for the design of bridge overhang slabs under concentrated loads. Experimental tests have been used to assess expressions for its calculation. However, the load capacity increases with the width until a transition area is reached. Test specimens may have lacked enough width to reach full shear capacity, affecting thus the evaluation of the results. On the other hand, within the transition area, a threshold value has been hypothesized to match the effective width. This paper aims to provide recommendations for minimal widths that guarantee the full capacity of overhang slabs and to assess the calculation of the effective width by means of the threshold value and other formulations. The effect of the edge beam is also considered. A campaign of validated non-linear FE-simulations based on experiments on range of width-span ratios was performed. The results suggest using a width-span ratio of at least 4.0 for slabs without an edge beam and 5.3 for slabs with an edge beam for the experimental practice. The efficiency of the formulation for the effective widths is diffuse and the use of threshold value leads to unsafe predictions. Instead, linear-elastic FE-analyses are recommended for the design practice.
钢筋混凝土悬挑板抗剪承载力的有效和最小板宽评定
摘要有效宽度是集中荷载作用下桥梁悬垂板设计的一个相关参数。用实验测试来评估其计算表达式。然而,载荷能力随着宽度的增加而增加,直到达到一个过渡区域。试件可能缺乏足够的宽度来达到完全剪切能力,从而影响结果的评估。另一方面,在过渡区域内,假设了一个阈值来匹配有效宽度。本文的目的是提供最小宽度的建议,以保证悬挑板的全部能力,并评估有效宽度的计算方法,通过阈值和其他公式。同时考虑了边梁的影响。进行了一系列基于宽跨比范围的非线性有限元模拟实验。结果表明,在实验实践中,无边梁板的宽跨比至少为4.0,带边梁板的宽跨比至少为5.3。有效宽度公式的效率是分散的,阈值的使用导致不安全的预测。相反,建议在设计实践中采用线弹性有限元分析。
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
Nordic Concrete Research
Nordic Concrete Research CONSTRUCTION & BUILDING TECHNOLOGY-
自引率
20.00%
发文量
8
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