Damage Recognition of Acoustic Emission and Micro-CT Characterization of Bi-adhesive Repaired Composites Based on the Machine Learning Method

Bi-adhesive repair method is one of several repair technologies that use the adhesive bonding approach for patch-repaired composites. However, these repairs are subject to matrix-cracking and interface debonding damage. Furthermore, a change in the length ratio (the length of the rigid adhesive regi...

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Published in	Applied composite materials Vol. 31; no. 3; pp. 841 - 864
Main Authors	Ji, Xiao-long, Liang, Yu-jiao, Zheng, Jia-yan, Ma, Lian-hua, Zhou, Wei
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.06.2024 Springer Nature B.V
Subjects	Acoustic emission Acoustics Adhesives Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Composite materials Cracking (fracturing) Damage detection Debonding Evolution Industrial Chemistry/Chemical Engineering Machine learning Materials Science Matrix cracks Polymer Sciences Repair Damage recognition Visual damage characterization Length ratios Acoustic emission monitoring Machine learning
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Abstract	Bi-adhesive repair method is one of several repair technologies that use the adhesive bonding approach for patch-repaired composites. However, these repairs are subject to matrix-cracking and interface debonding damage. Furthermore, a change in the length ratio (the length of the rigid adhesive region divided by the length of the overall repaired region) also produces a change in the damage modes, which has a significant impact on the repair performance. Hence, this study aims to evaluate the effects of four different length ratios (0, 0.2, 0.5, 1) on the behavior of damage evolution in bi-adhesive repaired composites. The acoustic emission damage identification and micro-CT characterization are carried out based on the machine learning method. A simple prediction method is employed to distinguish damage modes in bi-adhesive repaired composites, achieving a prediction accuracy over 90%. The results demonstrated that the length ratio has a substantial effect on matrix-cracking, fiber-matrix debonding, and their interaction in bi-adhesive repaired composites. These acquired characteristics information of acoustic emission signals provide insights into the impact of length ratio on the progression of damage evolution. Additionally, the visualization of interior damage offers insights into the variations in failure characteristics within distinct bi-adhesive repaired composites, thereby supporting the conclusions gained from acoustic emission studies. This research effectively achieves the real-time monitoring of damage modes in bi-adhesive repaired composites, contributing to the comprehension of the relationship between length ratio and damage mechanism.
AbstractList	Bi-adhesive repair method is one of several repair technologies that use the adhesive bonding approach for patch-repaired composites. However, these repairs are subject to matrix-cracking and interface debonding damage. Furthermore, a change in the length ratio (the length of the rigid adhesive region divided by the length of the overall repaired region) also produces a change in the damage modes, which has a significant impact on the repair performance. Hence, this study aims to evaluate the effects of four different length ratios (0, 0.2, 0.5, 1) on the behavior of damage evolution in bi-adhesive repaired composites. The acoustic emission damage identification and micro-CT characterization are carried out based on the machine learning method. A simple prediction method is employed to distinguish damage modes in bi-adhesive repaired composites, achieving a prediction accuracy over 90%. The results demonstrated that the length ratio has a substantial effect on matrix-cracking, fiber-matrix debonding, and their interaction in bi-adhesive repaired composites. These acquired characteristics information of acoustic emission signals provide insights into the impact of length ratio on the progression of damage evolution. Additionally, the visualization of interior damage offers insights into the variations in failure characteristics within distinct bi-adhesive repaired composites, thereby supporting the conclusions gained from acoustic emission studies. This research effectively achieves the real-time monitoring of damage modes in bi-adhesive repaired composites, contributing to the comprehension of the relationship between length ratio and damage mechanism.
Author	Liang, Yu-jiao Ji, Xiao-long Ma, Lian-hua Zhou, Wei Zheng, Jia-yan
Author_xml	– sequence: 1 givenname: Xiao-long surname: Ji fullname: Ji, Xiao-long organization: Non-destructive Testing Laboratory, School of Quality and Technical Supervision, Hebei University, Engineering Research Center of Zero-carbon Energy Buildings and Measurement Techniques, Ministry of Education, Hebei University, Hebei Key Laboratory of Energy Metering and Safety Testing Technology, Hebei University – sequence: 2 givenname: Yu-jiao surname: Liang fullname: Liang, Yu-jiao email: liang.yu.jiao@163.com organization: Non-destructive Testing Laboratory, School of Quality and Technical Supervision, Hebei University, Engineering Research Center of Zero-carbon Energy Buildings and Measurement Techniques, Ministry of Education, Hebei University, Hebei Key Laboratory of Energy Metering and Safety Testing Technology, Hebei University – sequence: 3 givenname: Jia-yan surname: Zheng fullname: Zheng, Jia-yan organization: Non-destructive Testing Laboratory, School of Quality and Technical Supervision, Hebei University, Engineering Research Center of Zero-carbon Energy Buildings and Measurement Techniques, Ministry of Education, Hebei University, Hebei Key Laboratory of Energy Metering and Safety Testing Technology, Hebei University – sequence: 4 givenname: Lian-hua surname: Ma fullname: Ma, Lian-hua organization: Non-destructive Testing Laboratory, School of Quality and Technical Supervision, Hebei University, Engineering Research Center of Zero-carbon Energy Buildings and Measurement Techniques, Ministry of Education, Hebei University, Hebei Key Laboratory of Energy Metering and Safety Testing Technology, Hebei University – sequence: 5 givenname: Wei orcidid: 0000-0002-1423-038X surname: Zhou fullname: Zhou, Wei email: zhouwei@hbu.edu.cn, zhouweihy@126.com organization: Non-destructive Testing Laboratory, School of Quality and Technical Supervision, Hebei University, Engineering Research Center of Zero-carbon Energy Buildings and Measurement Techniques, Ministry of Education, Hebei University, Hebei Key Laboratory of Energy Metering and Safety Testing Technology, Hebei University
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Snippet	Bi-adhesive repair method is one of several repair technologies that use the adhesive bonding approach for patch-repaired composites. However, these repairs...
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SubjectTerms	Acoustic emission Acoustics Adhesives Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Composite materials Cracking (fracturing) Damage detection Debonding Evolution Industrial Chemistry/Chemical Engineering Machine learning Materials Science Matrix cracks Polymer Sciences Repair
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Title	Damage Recognition of Acoustic Emission and Micro-CT Characterization of Bi-adhesive Repaired Composites Based on the Machine Learning Method
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