Automatic Air-Coupled Ultrasound Detection of Impact Damages in Fiber-Reinforced Composites Based on One-Dimension Deep Learning Models

IF 2.6 3区材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Journal of Nondestructive Evaluation Pub Date : 2023-08-29 DOI:10.1007/s10921-023-00988-0

Yuxia Duan, Tiantian Shao, Yuntao Tao, Hongbo Hu, Bingyang Han, Jingwen Cui, Kang Yang, Stefano Sfarra, Fabrizio Sarasini, Carlo Santulli, Ahmad Osman, Andrea Mross, Mingli Zhang, Dazhi Yang, Hai Zhang

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Abstract

Impact damage constitutes a major threat to the performance and safety of fiber-reinforced composites. In this regard, transmission air-coupled ultrasound inspection technology has been identified as an ideal method for detection of common structural defects in modern multilayer composites. However, traditional machine learning algorithms and ultrasonic signal analysis methods are limited in terms of efficiency and accuracy. To remedy the situation, four one-dimensional deep learning models based on A-scan signals obtained from air-coupled ultrasound, which can automatically detect the impact damage in fiber-reinforced polymer composites, are constructed in this paper. Remarkably, all four models have attained high accuracy and recall on the testing sets, even though the training data and test data correspond to different materials and even structures. Among the four models, the long short-term memory recurrent neural network outperforms the other three models, which demonstrates its robustness and effectiveness.

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基于一维深度学习模型的纤维增强复合材料冲击损伤空气耦合超声自动检测

冲击损伤是影响纤维增强复合材料性能和安全性的主要因素。在这方面，透射式空气耦合超声检测技术已被确定为检测现代多层复合材料中常见结构缺陷的理想方法。然而，传统的机器学习算法和超声信号分析方法在效率和准确性方面存在局限性。为了解决这一问题，本文基于空气耦合超声获得的a扫描信号，构建了4个能够自动检测纤维增强聚合物复合材料冲击损伤的一维深度学习模型。值得注意的是，尽管训练数据和测试数据对应的是不同的材料甚至结构，但这四种模型在测试集上都获得了很高的准确率和召回率。在四种模型中，长短期记忆递归神经网络优于其他三种模型，证明了其鲁棒性和有效性。

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来源期刊

Journal of Nondestructive Evaluation 工程技术-材料科学：表征与测试

CiteScore

4.90

自引率

7.10%

发文量

审稿时长

9 months

期刊介绍： Journal of Nondestructive Evaluation provides a forum for the broad range of scientific and engineering activities involved in developing a quantitative nondestructive evaluation (NDE) capability. This interdisciplinary journal publishes papers on the development of new equipment, analyses, and approaches to nondestructive measurements.