Revisit of AASHTO Effective Flange-Width Provisions for Box Girders

Zhibin Lin; Jian Zhao

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Revisit of AASHTO Effective Flange-Width Provisions for Box Girders

机译：回顾AASHTO箱梁的有效翼缘宽度规定

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The nonuniform normal stress distribution along the flange of thin-walled flexural members, such as box girders, is recognized as shear lag effects. Effective flange width is widely used to consider shear lag effects in bridge design. The existing provisions for effective flange width in AASHTO LRFD Specifications can be unconservative compared with this study and other design regulations worldwide. An energy-based variation analysis was used in the study to evaluate the AASHTO provisions. With extensive parametric studies, equations were proposed to calculate the effective flange width for box girders. The new provisions consider the critical factors for the shear lag behavior: geometry of the girder, loading pattern, material properties, and the existence of longitudinal stiffeners.

机译：沿薄壁挠性构件（例如箱形梁）的凸缘的不均匀法向应力分布被认为是剪力滞后效应。有效翼缘宽度被广泛用于桥梁设计中的剪力滞后效应。与本研究和全球其他设计法规相比，AASHTO LRFD规范中有关有效法兰宽度的现有规定可能并不保守。在研究中使用了基于能量的变化分析来评估AASHTO规定。通过广泛的参数研究，提出了方程式来计算箱形梁的有效翼缘宽度。新规定考虑了剪切滞后行为的关键因素：大梁的几何形状，加载模式，材料特性以及纵向加劲肋的存在。

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来源
《Journal of bridge engineering》 |2011年第6期|p.881-889|共9页
作者
Zhibin Lin; Jian Zhao;
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作者单位

Dept. of Civil Engineering and Mechanics, Univ. of Wisconsin, Milwaukee, WI53201;

Dept. of Civil Engineering and Mechanics, Univ. of Wisconsin, Milwaukee, WI 53201;

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原文格式 PDF
正文语种 eng
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关键词
box girder; effective flange width; shear lag; bridge analysis;

机译：箱形梁有效法兰宽度;剪切滞后桥梁分析;

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2. Optimization of Post-Tensioned Box Girder Bridges with Special Reference to Use of High-Strength Concrete Using AASHTO LRFD Method [J] . ByungikChang, KamalMirtalaei, SeungyeolLee, Advances in civil engineering . 2012,第3期

机译：通过AASHTO LRFD方法对高强度混凝土的使用特别优化后张式箱梁桥的优化
3. Optimization of Post-Tensioned Box Girder Bridges with Special Reference to Use of High-Strength Concrete Using AASHTO LRFD Method [J] . Byungik Chang, Kamal Mirtalaei, Seungyeol Lee, Advances in civil engineering . 2012,第期

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5. Residual Flexural Strength of Corroded AASHTO TYPE II Pretensioned Concrete Girder-deck System [D] . Yan, Bo 2019

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Revisit of AASHTO Effective Flange-Width Provisions for Box Girders

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