Innovative Look at the ‘General Method’ of Assessing Buckling Resistance of Steel Structures

IF 0.7 Q4 MECHANICS
D. Czepiżak
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引用次数: 0

Abstract

Abstract Stability checking is an essential element of the dimensioning of steel frame structures. One of the stability checking methods allowed by EN 1993-1-1 is the so-called general method of assessing structural stability, based on buckling curves and relative structure slenderness λ¯op {\bar \lambda _{op}} usually determined through numerical analyses. But this method is not widely used because of the limited computing capabilities of the engineering programs dedicated to static load analyses and difficulties in interpreting the results of the computations. The commonly used computer programs enable one to determine the shape of buckling and critical load amplifier αcr, from which one cannot directly determine the risk of buckling of a real structure. This paper presents a modified and innovative approach to the general method of assessing structural stability, which uses only three parameters, that is, the type of cross section, cross-section strength utilisation and αcr, to determine a member’s/structure’s bearing capacity mobilisation from the stability condition. The problem solution is presented in the form of simple formulas and legible diagrams. Finally, synthetic conclusions are formulated.
对评估钢结构屈曲阻力的“通用方法”进行创新
摘要稳定性验算是钢框架结构尺寸标注的一个重要组成部分。EN 1993-1-1允许的稳定性检查方法之一是所谓的评估结构稳定性的通用方法,该方法基于通常通过数值分析确定的屈曲曲线和相对结构长细比λop。但由于用于静载荷分析的工程程序的计算能力有限,并且难以解释计算结果,因此这种方法没有得到广泛使用。常用的计算机程序使人们能够确定屈曲的形状和临界载荷放大器αcr,从中不能直接确定实际结构的屈曲风险。本文对结构稳定性评估的一般方法提出了一种改进和创新的方法,该方法仅使用三个参数,即横截面类型、横截面强度利用率和αcr,来从稳定性条件确定构件/结构的承载力调动。问题的解决方案是以简单的公式和清晰的图表的形式提出的。最后,给出了综合结论。
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
16.70%
发文量
20
审稿时长
16 weeks
期刊介绍: An international journal ‘Studia Geotechnica et Mechanica’ covers new developments in the broad areas of geomechanics as well as structural mechanics. The journal welcomes contributions dealing with original theoretical, numerical as well as experimental work. The following topics are of special interest: Constitutive relations for geomaterials (soils, rocks, concrete, etc.) Modeling of mechanical behaviour of heterogeneous materials at different scales Analysis of coupled thermo-hydro-chemo-mechanical problems Modeling of instabilities and localized deformation Experimental investigations of material properties at different scales Numerical algorithms: formulation and performance Application of numerical techniques to analysis of problems involving foundations, underground structures, slopes and embankment Risk and reliability analysis Analysis of concrete and masonry structures Modeling of case histories
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