Experimental and analytical assessment of the bending behaviour of floating inflated membrane beams

IF 4.6 2区工程技术 Q1 ENGINEERING, CIVIL

Ocean Engineering Pub Date : 2024-11-12 DOI:10.1016/j.oceaneng.2024.119710

Yunling Ye , Jin Gan , Weiguo Wu , Shan Wang , C. Guedes Soares

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Abstract

The study aims to study the bending and failure behaviour of the inflated membrane beams under floating conditions to support their application in floating platforms. Bending tests are conducted to assess the structural stiffness and ultimate bearing capacity of the beam with various diameters and inflated pressures. With the elastic modulus determined through four-point bending tests, a new analytical formula based on Winkler elastic foundation theory is then developed to predict the deflection of the beams. The results revealed that the beams initially undergo total submersion, followed by end turn-up and anti-arching deformation in the loaded section. The bearing capacity of the beams increases with the increase in internal pressure and diameter. Localised wrinkling is a typical failure mode at low internal pressures, while at high pressures, the failure mode shifts to boundary failure, characterised by submerging in water. The experimental and analytical results show quite good agreement, confirming the accuracy of the current analysis. Overall, this paper contributes to understanding the bending and failure behaviour of inflated membrane beams under floating conditions and supports the offshore structure safety design.

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浮动充气膜梁弯曲性能的实验和分析评估

该研究旨在研究充气膜梁在漂浮条件下的弯曲和破坏行为，以支持其在漂浮平台中的应用。通过弯曲试验来评估不同直径和充气压力下膜梁的结构刚度和极限承载能力。通过四点弯曲试验确定了弹性模量，然后根据温克勒弹性地基理论建立了一个新的分析公式来预测梁的挠度。结果表明，梁最初会发生完全浸没，随后在加载部分会发生端部翻转和反拱变形。梁的承载能力随着内部压力和直径的增加而增加。在低内压条件下，局部起皱是一种典型的失效模式，而在高压条件下，失效模式转变为边界失效，其特征是浸入水中。实验和分析结果显示出相当好的一致性，证实了当前分析的准确性。总之，本文有助于理解充气膜梁在漂浮条件下的弯曲和破坏行为，并为海上结构安全设计提供支持。

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

Ocean Engineering 工程技术-工程：大洋

CiteScore

7.30

自引率

34.00%

发文量

2379

审稿时长

8.1 months

期刊介绍： Ocean Engineering provides a medium for the publication of original research and development work in the field of ocean engineering. Ocean Engineering seeks papers in the following topics.