Guided wave ultrasonic feature determination in Type IV composite overwrapped pressure vessels towards the digital twin

Research and Review Journal of Nondestructive Testing Pub Date : 2023-08-01 DOI:10.58286/28072

Bengisu Yilmaz, J. Heimann, S. Mustapha, A. Charmi, J. Prager

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Abstract

The digitalization of quality control processes and the underlying data infrastructures for safety relevant components, such as hydrogen pressure vessels, plays a significant role in the transition towards Industry 4.0. In the current safety regulations for hydrogen pressure vessels, there is no established concept for structural health monitoring. The development of a reliable structural health monitoring methodology for monitoring the structural integrity of pressure vessels enables a fast-forward transition from personnel- and costintensive recurring inspections, a.k.a. periodic maintenance, to predictive maintenance. In the work presented; we investigated the application of ultrasonic guided wave propagation to monitor and assess the condition of Type IV composite overwrapped pressure vessel (COPV). A sensor network of fifteen piezo-electric wafers is placed on the carbon fibre reinforced composite cylinder. Five different artificial damage configurations are created by gluing two different weight blocks on three different locations. The database containing measured guided wave data sets is enriched by two different boundary conditions. We utilized an open-source software, openBIS labnotebook, to store and analyse experimental datasets. The guided wave ultrasonic signals were investigated and analysed by using commonly used ultrasonic features (e.g., amplitude, frequency, time of flight) as well as non-traditional time-series features (kurtosis, skewness, variance). The features were used to calculate damage index and the detection performance for the results has been evaluated. The results suggest that both traditional and non-traditional features assume significant importance in artificial damage detection. The future works will additionally involve the impacts of operational conditions, such as periodic pressure variations temperature loadings as well as material degradations.

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面向数字孪生体的IV型复合材料包覆压力容器导波超声特征测定

质量控制过程的数字化和安全相关组件(如氢压力容器)的底层数据基础设施在向工业4.0的过渡中发挥着重要作用。在现行的氢气压力容器安全法规中，对结构健康监测没有一个明确的概念。开发一种可靠的结构健康监测方法，用于监测压力容器的结构完整性，从而实现从人员和成本密集的重复检查(即定期维护)到预测性维护的快速过渡。在展示的作品中;研究了超声导波传播在IV型复合材料包覆压力容器(COPV)状态监测和评价中的应用。由15个压电晶片组成的传感器网络被放置在碳纤维增强复合材料圆柱体上。通过将两个不同的重量块粘合在三个不同的位置，可以创建五种不同的人工损伤配置。两种不同的边界条件丰富了包含导波数据集的数据库。我们使用开源软件openBIS labnotebook来存储和分析实验数据集。利用常用的超声特征(如振幅、频率、飞行时间)和非传统的时间序列特征(峰度、偏度、方差)对导波超声信号进行了研究和分析。利用这些特征计算损伤指数，并对结果的检测性能进行了评价。结果表明，传统特征和非传统特征在人工损伤检测中都具有重要意义。未来的工作还将涉及操作条件的影响，如周期性压力变化、温度负荷以及材料降解。

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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Research and Review Journal of Nondestructive Testing

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