A formula for estimating the buckling capacity of corroded tubular members

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY
F. H. Øyasæter, A. Aeran, S. Siriwardane
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引用次数: 1

Abstract

PurposeSeveral experimental and numerical studies were performed in the past to estimate buckling capacity of corroded tubular members. However, the effect of initial imperfections has not been properly considered in most of these earlier proposed formulas. Therefore, the main objective of this paper is to propose an accurate analytical formula to determine the buckling capacity of patched corroded tubular members.Design/methodology/approachTubular members with initial geometrical imperfections can be regarded as beam-columns because of the combination of axial load and bending moment. The proposed formula is derived for a rectangular corrosion patch. The proposed formula is verified with results from finite element analysis of corroded tubular members and experimental results. The formula is also applied to an existing offshore jacket structure to highlight its significance and applicability. It is found that the buckling capacity of jacket members in splash zone reduces significantly with ageing. This reduction is around 29 and 14% for the selected brace and leg member respectively, during the design life. Finally, it is concluded that corrosion reduces the buckling capacity significantly and the proposed formula can be easily applied by practicing engineers to give an accurate and slightly conservative estimate the remaining buckling capacity.FindingsThe main finding is the new formula which accurately and conservatively estimate the buckling capacity of corroded tubular members. The proposed formula considers the secondary effect of both initial geometrical imperfections and shifting of centroid because of corrosion.Originality/valueThe proposed new formula is unique and original in that it considers both secondary effects from geometrical imperfections, reduction of cross-section from corrosion wastage and shifting of centroid because of corrosion. Finally, it is concluded that corrosion reduces the buckling capacity significantly and the proposed formula can be easily applied by practicing engineers to conservatively estimate the remaining buckling capacity and verify if further, more advanced estimations are needed.
腐蚀管状构件屈曲能力的计算公式
为了估计腐蚀管状构件的屈曲能力,过去进行了一些实验和数值研究。然而,在这些早期提出的公式中,初始缺陷的影响并没有得到适当的考虑。因此,本文的主要目的是提出一个精确的分析公式来确定修补腐蚀的管状构件的屈曲能力。设计方法:由于轴向荷载和弯矩的共同作用,具有初始几何缺陷的管状构件可视为梁柱。该公式适用于矩形腐蚀斑。用腐蚀管构件的有限元分析结果和试验结果验证了所提公式的正确性。并将该公式应用于现有海上导管架结构,以突出其意义和适用性。随着时效的增加,飞溅区夹套构件的屈曲能力显著降低。在设计寿命期间,所选择的支撑和腿构件分别减少了约29%和14%。最后得出结论,腐蚀显著降低了屈曲能力,所提出的公式易于实践工程师使用,可以准确且略保守地估计剩余屈曲能力。主要发现是新公式能准确、保守地估计腐蚀管状构件的屈曲能力。该公式考虑了腐蚀引起的初始几何缺陷和质心位移的二次效应。独创性/价值提出的新公式是独特和原创的,因为它考虑了几何缺陷的二次影响,腐蚀损耗的截面减少和腐蚀引起的质心移动。最后得出结论,腐蚀显著降低了屈曲能力,所提出的公式可以很容易地被实践工程师用于保守估计剩余屈曲能力,并验证是否需要进一步进行更高级的估计。
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 Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
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