Characterization and depth detection of internal delamination defects in CFRP based on line laser scanning infrared thermography

Author:

Zhou Guangyu1ORCID,Zhang Zhijie1,Yin Wuliang2,Chen Haoze1,Wang Luxiang1,Wang Dong1,Ma Huidong1

Affiliation:

1. School of Instrument and Electronics, North University of China, Taiyuan, China

2. School of Electrical and Electronic Engineering, The University of Manchester, Manchester, UK

Abstract

In this article, the shape characterization and depth detection of delamination defects in carbon fiber reinforced polymer (CFRP) sandwich are achieved by detecting delamination defects through line laser infrared thermography. In terms of defect shape characterization, the temperature matrix difference imaging method is proposed to characterize the shape of internal defects, and the defect shape distortion is corrected by the principal component analysis algorithm to optimize the effect of defect shape characterization. In terms of defect depth detection, this study constructs a dataset of cooling curves for defects of different depths and builds an encoder–decoder convolutional neural network structure based on the attention mechanism, which is centered on a streamlined encoder–decoder structure as well as a highly integrated attention gate, which is capable of accelerating the extraction of features and reducing the number of iterations of the algorithm. The results demonstrate that we achieved an average classification accuracy of 88.9% for defects with a depth gradient difference of 0.2 mm, attaining the highest classification accuracy of 95% for a single defect. Furthermore, our approach outperformed several classical classifiers by achieving superior accuracy with fewer iterations. The experimental results demonstrate that the line laser scanning inspection method is effective in the task of detecting internal defects in CFRP materials.

Publisher

SAGE Publications

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