Effect of Axial Misalignments in Fillet Welded Cruciform Joint Under Static Loading

IF 1.1 4区工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

International Journal of Steel Structures Pub Date : 2024-03-13 DOI:10.1007/s13296-024-00811-0

Bikram Paul, Zhiyuan Fang, Krishanu Roy, Hafez Tehari, Michail Karpenko, James B. P. Lim

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Abstract

This paper presents a numerical study to investigate the effects of axial misalignment for the fillet welded cruciform joints using the traction stress method. A parametric study, involving 100 finite element (FE) models, was conducted with plate thickness and misalignments treated as independent parameters. In the parametric study, different fillet weld leg sizes were chosen based on the minimum criteria specified in the New Zealand standard (NZS 3404.1). Normalized shear traction stresses were calculated for each plate thickness and misalignments at different cut planes through the fillet weld. In each model, the maximum normalized shear stress occurred at an angle of 15° to the loading plate, which represents the critical angle for weld failure. Finally, based on the results of the parametric study, an equation for the multiplication factor was proposed for the cruciform joint to obtain the maximum normalized shear traction stress for different misalignments and weld size. The multiplication factor obtained from the FEA matched well with the multiplication factor predicted by the proposed equation, and reliability analysis was conducted to confirm the accuracy of the proposed equation.

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静载荷下十字形蝶形焊接接头轴向偏差的影响

本文采用牵引应力法对十字形角焊缝的轴向偏差影响进行了数值研究。在将板厚和不对中作为独立参数处理的情况下，进行了涉及 100 个有限元 (FE) 模型的参数研究。在参数研究中，根据新西兰标准（NZS 3404.1）规定的最低标准选择了不同的角焊缝焊脚尺寸。在通过角焊缝的不同切割平面上，对每种板厚和偏差计算归一化剪切牵引应力。在每个模型中，最大归一化剪切应力发生在与加载板成 15° 角时，该角度代表焊缝失效的临界角。最后，根据参数研究的结果，提出了十字形接头的乘法系数方程，以获得不同错位和焊缝尺寸下的最大归一化剪切牵引应力。从有限元分析中获得的倍增因子与拟议方程预测的倍增因子非常吻合，并进行了可靠性分析，以确认拟议方程的准确性。

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

International Journal of Steel Structures 工程技术-工程：土木

CiteScore

2.70

自引率

13.30%

发文量

122

审稿时长

12 months

期刊介绍： The International Journal of Steel Structures provides an international forum for a broad classification of technical papers in steel structural research and its applications. The journal aims to reach not only researchers, but also practicing engineers. Coverage encompasses such topics as stability, fatigue, non-linear behavior, dynamics, reliability, fire, design codes, computer-aided analysis and design, optimization, expert systems, connections, fabrications, maintenance, bridges, off-shore structures, jetties, stadiums, transmission towers, marine vessels, storage tanks, pressure vessels, aerospace, and pipelines and more.