Semi-Analytical Investigation into the Balanced Performance of Thick-Walled Fiber-Reinforced Flexible Pipes
Jingyue You, Yinglong Zhao, Ben Zhang

TL;DR
This paper introduces a new semi-analytical method to evaluate the balanced performance of thick-walled fiber-reinforced flexible pipes under pressure.
Contribution
A semi-analytical method is proposed to address end effects, geometric, and material nonlinearities in FRF pipe design.
Findings
An eight-coefficient displacement trial function effectively captures deformation features under internal pressure.
The method is validated against experiments and simulations, showing good agreement.
The influence of fiber winding angles on balanced performance is analyzed for self-balanced pipe design.
Abstract
The balanced performance of fiber-reinforced flexible (FRF) pipes is essential for maintaining dimensional stability and structural integrity in pipelines. However, current theoretical approaches face challenges in simultaneously incorporating end effects, geometric nonlinearity, and material nonlinearity, resulting in a persistent reliance on engineering experience when determining balanced fiber winding angles. This work proposes a semi-analytical method for evaluating the balanced performance of thick-walled FRF pipes, based on the strain energy density function, with governing equations established by integrating finite deformation theory and the principle of minimum potential energy. A displacement trial function is adopted to approximate the actual displacement field, with its coefficients determined iteratively using the Newton–Raphson method. An eight-coefficient displacement…
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Taxonomy
TopicsStructural Integrity and Reliability Analysis · Mechanical Behavior of Composites · Mechanical stress and fatigue analysis
