Lateral torsional buckling behaviour of tapered steel section with web opening – finite element analysis

IF 1.4 Q2 ENGINEERING, MULTIDISCIPLINARY

World Journal of Engineering Pub Date : 2023-04-28 DOI:10.1108/wje-06-2022-0260

F. De’nan, N. Hashim, Ngo Siew Ting

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Abstract

Purpose Recently, this steel section has found increasing popularity in residential, industrial and commercial buildings with their high load-carrying capacity due to the nature of high strength to weight ratio properties. However, the rise on the price of steel section should be more emphasized; therefore, the optimization in steel section design is needed to overcome the issue of material cost. As such, tapered steel sections save on material use, while the introduction of web openings allows the placement of mechanical and electrical services, plumbing and also aesthetic design considerations. Design/methodology/approach The purpose of this study is to investigate the lateral torsional buckling behavior of a tapered steel section with an ellipse-shaped opening by analyzing its structural parameters. To achieve this, the finite element analysis (FEA) of the section is modeled using LUSAS software, which allows for a detailed analysis of the section's behavior under varying loads and conditions. It involves the variation in web opening size, opening layout, opening rotation angle and the tapering ratio. Eigenvalue buckling analysis is adopted to know the parametric effects of each 108 model. The size of opening varies from 0.2 to 0.5 d of the total depth where the opening located. There are three type of layouts applied in this study, which are the layouts A, B and C. There are three types of rotation angles for the ellipse-shaped opening, including the non-rotated vertical opening and two additional types formed by rotating the opening 45 degrees clockwise and counterclockwise around the center-point of the ellipse. A fixed-free boundary condition was applied, resulting in a simulation of a cantilever beam. The models are fixed at one end with a larger depth, and free at the other end with a smaller depth. Loading condition is an application of 10 kN/m uniform distributed load in the direction of gravity along the mid-span of the top flange. Findings It is observed that the model 82 with Layout A, tapering ratio 0.3, opening size 0.5 d and opening rotated in 45 degree anti-clockwise direction results in the highest structural efficiency among the 108 models. Therefore, the buckling moment of model 82 is 1,013.08 kNm with structural efficiency of 481.26, which shows an increase of 3.17% compared to the controlled model. Originality/value The FEA results shows a significant increase in ductility and stiffness of the tapered steel section with elipse shape opening and consequently changes in the behaviour of yield point.

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腹板开孔锥形截面钢的侧向扭转屈曲行为——有限元分析

最近，这种型钢在住宅、工业和商业建筑中越来越受欢迎，由于其高强度重量比的特性，其承载能力很高。但对型钢价格的上涨应更加重视;因此，需要对型钢进行优化设计，以克服材料成本问题。因此，锥形钢截面节省了材料的使用，而引入腹板开口允许放置机电服务，管道和美学设计考虑。设计/方法/途径本研究的目的是通过分析椭圆开口锥形钢截面的结构参数，研究其侧向扭转屈曲行为。为了实现这一目标，使用LUSAS软件对截面进行有限元分析(FEA)，该软件可以详细分析截面在不同载荷和条件下的行为。它涉及到腹板开口尺寸、开口布局、开口旋转角度和锥度比的变化。采用特征值屈曲分析来了解每108个模型的参数效应。开口的大小为开口所处总深度的0.2 ~ 0.5 d。本研究采用了三种布局，分别为A、B、c。椭圆型开口有三种旋转角度，包括不旋转的垂直开口，以及围绕椭圆中心点顺时针、逆时针旋转45度形成的另外两种旋转角度。采用固定自由边界条件，对悬臂梁进行了数值模拟。模型一端固定，深度较大，另一端自由，深度较小。荷载工况为沿顶翼缘跨中方向施加10 kN/m重力方向均布荷载。结果表明，布局A、锥度比0.3、开口尺寸0.5 d、开口逆时针旋转45度的模型82在108个模型中结构效率最高。因此，模型82的屈曲矩为1,013.08 kNm，结构效率为481.26，比控制模型提高了3.17%。独创性/价值有限元分析结果表明，椭圆形开口的锥形钢截面的延性和刚度显著增加，从而改变了屈服点的行为。

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来源期刊

World Journal of Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

4.20

自引率

10.50%

发文量

期刊介绍： The main focus of the World Journal of Engineering (WJE) is on, but not limited to; Civil Engineering, Material and Mechanical Engineering, Electrical and Electronic Engineering, Geotechnical and Mining Engineering, Nanoengineering and Nanoscience The journal bridges the gap between materials science and materials engineering, and between nano-engineering and nano-science. A distinguished editorial board assists the Editor-in-Chief, Professor Sun. All papers undergo a double-blind peer review process. For a full list of the journal''s esteemed review board, please see below.