存根(电子)
结构工程
焊接
残余应力
极限抗拉强度
参数统计
有限元法
材料科学
屈曲
残余物
轴对称性
复合材料
数值分析
拉伸试验
偏转(物理)
弯曲
材料性能
高强度钢
压力(语言学)
材料强度
工程类
残余强度
试验数据
结构强度的尺寸效应
作者
Xiaowei Ma,Jiachen Guo,Lin Zhang,Fei Xu,Hai-Ting Li,Jun-Zhi Liu
标识
DOI:10.1177/13694332261430948
摘要
This paper details an integrated experimental and numerical analysis of the structural performance of axially compressed Q1100 ultra-high strength steel (UHSS) welded box-section stub columns. Material characterisation was performed through tensile tests on tensile coupons extracted from both the base metal and the heat-affected zone (HAZ) to obtain their constitutive relationships. Meticulous quantification of initial geometric imperfections and residual stress fields, comprising both membrane and bending components, was carried out, with measured peak tensile residual stresses near the weld seam attaining 37.2% of the nominal yield strength. All nine stub column specimens failed by local buckling, and a clear inverse trend was observed between the normalised axial strength and the plate width-to-thickness ratio. A high-fidelity finite element (FE) model was established, integrating the measured imperfections, residual stress patterns, and the strength reduction in the HAZ. The accuracy of FE model was confirmed through rigorous validation against test results. A subsequent parametric analysis expanded the data over a wide range of cross-section slenderness, enabling a thorough evaluation of structural local buckling behaviour. Comparisons with predictions from major design codes, such as EN 1993-1-1, AISC 360, and AS 4100, showed that these standards are consistently conservative for the studied UHSS sections, with the conservatism being most pronounced for stocky cross-sections. This research provides essential insights and suggests practical refinements to bridge existing gaps in design codes for UHSS structural applications.
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