The Effect of the Slot Length on Beam Vertical Shear in I-Beams with Moment Connections

IF 1 Q4 ENGINEERING, CIVIL
G. Abdollahzadeh, M. Naghipour, Ehsan Shabanzadeh
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引用次数: 0

Abstract

This paper evaluates the effect of slot existence with limited length between flanges and web junction of I-shaped beams at the region of moment connections on vertical force and shear stress distribution in beam flanges and web at connection section in comparison with classical theory of stress distribution. The main purpose of this research is to evaluate the efficiency of the slot in connections such as slotted web beam to column connection in modern age. The issue of the slot has many benefits but very little studies have been done on it. Accordingly, one hundred and twenty models with two moment connections under the concentrated static load in mid span have been made for doing parametric study in ANSYS Workbench finite element software. The linear static analysis was done on all constructed models. Variable parameters in these models for parametric study include slot length between flange and web junction in connection region (from 0 to 190 mm), beam length, beam section height and Poisson’s ratio of beam material. In all models the amount of shear stress in section height over the section vertical axis in connection region and also the devoted contribution from force which goes to flanges and web under the concentrated load on mid span have been calculated. Performed studies have shown that vertical shear stress distribution in beam to column connection section with moment connection differs a lot from what is stated in mechanics of materials equations. Practically the available equations in regulations which state that web receives the entire vertical shear and ignore the contribution of flanges are not reliable. In addition, studies have shown that the slot existence in junction of web and flanges in connection section with limited length can has great effect on the quality of vertical shear stress distribution over the section of connection and also the slot existence has great effect on the reduction of shear stress in flanges and increase in shear stress in web according to classical theory. As a total result, nowadays slotted web beam to column connection can be used as a fantastic and simple idea to improve modern connections behavior.
弯矩连接工字梁槽长对梁竖向剪力的影响
本文通过与经典应力分布理论的比较,评价了力矩连接区I型梁翼缘与腹板连接处有限长度槽的存在对连接截面梁翼缘和腹板竖向力和剪应力分布的影响。本研究的主要目的是评估现代开槽腹板梁柱连接等节点的效率。因此,在ANSYS Workbench有限元软件中建立了120个具有两个力矩连接的跨中集中静载荷模型进行参数化研究。对所有构建的模型进行了线性静力分析。用于参数研究的这些模型中的可变参数包括连接区翼缘和腹板连接处之间的缝隙长度(从0到190mm)、梁长度、梁截面高度和梁材料的泊松比。在所有模型中,都计算了连接区截面垂直轴上截面高度的剪应力,以及在跨中集中荷载作用下作用于翼缘和腹板的力的贡献。研究表明,弯矩连接梁柱连接截面的竖向剪应力分布与材料力学方程中的分布有很大不同。实际上,规定腹板承受整个垂直剪切并忽略翼缘贡献的可用方程是不可靠的。此外,研究表明,根据经典理论,有限长度连接截面中腹板与翼缘连接处的缝隙存在对连接截面上垂直剪应力分布的质量有很大影响,并且缝隙的存在对翼缘剪应力的减小和腹板剪应力增大有很大影响。总的来说,如今开槽腹板梁柱连接可以作为一种奇妙而简单的想法来改善现代连接的性能。
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
1.30
自引率
60.00%
发文量
0
审稿时长
47 weeks
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