Investigation on Mechanical Properties of Fibreglass Reinforced Flexible Pipes Under Torsion

Volume 7B: Ocean Engineering Pub Date : 2018-06-17 DOI:10.1115/OMAE2018-77354

Pan Fang, Yuxin Xu, Shuai Yuan, Yong Bai, Peng Cheng

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引用次数: 5

Abstract

Fibreglass reinforced flexible pipe (FRFP) is regarded as a great alternative to many bonded flexible pipes in the field of oil or gas transportation in shallow water. This paper describes an analysis of the mechanical behavior of FRFP under torsion. The mechanical behavior of FRFP subjected to pure torsion was investigated by experimental, analytical and numerical methods. Firstly, this paper presents experimental studies of three 10-layer FRFP subjected to torsional load. Torque-torsion angle relations were recorded during this test. Then, a theoretical model based on three-dimensional (3D) anisotropic elasticity theory was proposed to study the mechanical behavior of FRFP. In addition, a finite element model (FEM) including reinforced layers and PE layers was used to simulate the torsional load condition in ABAQUS. Torque-torsion angle relations obtained from these three methods agree well with each other, which illustrates the accuracy and reliability of the analytical model and FEM. The impact of fibreglass winding angle, thickness of reinforced layers and radius-thickness ratio were also studied. Conclusions obtained from this research may be of great practicality to manufacturing engineers.

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玻璃纤维增强挠性管的扭转力学性能研究

在浅水油气输送领域，玻璃钢增强柔性管(FRFP)被认为是许多粘接柔性管的理想替代品。本文对FRFP在扭转作用下的力学性能进行了分析。采用实验、分析和数值方法研究了FRFP在纯扭转作用下的力学行为。本文首先对三种10层FRFP进行了扭转荷载作用下的试验研究。在测试过程中记录了扭矩-扭转角关系。然后，提出了基于三维各向异性弹性理论的理论模型来研究FRFP的力学行为。在ABAQUS软件中建立了包含钢筋层和PE层的有限元模型，模拟了结构的扭转荷载工况。三种方法得到的扭矩-扭转角关系吻合较好，说明了解析模型和有限元方法的准确性和可靠性。研究了玻璃纤维缠绕角、增强层厚度和半径厚比对复合材料性能的影响。本研究所得的结论对制造工程师有很大的实用价值。

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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Volume 7B: Ocean Engineering

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