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Proceedings of the American Society for Composites; Thirty-fifth Technical Conference


The complexity of composite materials due to the nature of their numerous laminated layers, stacking sequences, type of fibers, resin, and other external factors has challenged the world of structural health monitoring (SHM) and non-destructive inspection (NDI). Post-processing of these SHM and NDI methods has been mostly a manual time-consuming process, with human inspection causing errors associated with the bias decision made by NDI inspectors. Recent advances also call for Cure On The Fly (COTF), by integrating NDI with advanced technologies and analysis techniques such as Artificial Intelligence (AI) and Machine Learning (ML) for on-line real-time predictions of a defect, damage, strength, and life. Broadband Dielectric Spectroscopy (BbDS) is based on an interaction of the electromagnetic waves with the matter and is identified as a robust tool to extract the material level information based on the morphology changes in them. It assesses the materials state by identifying the micro-defects generated and the orientation of those defects. Previous research has proved that this method can be employed to assess the different material state parameters caused by the different modes of damage, specific defects present in them, and hence predict their strength based on these assessments. In this research work, we integrate the method of using BbDS to obtain the material properties i.e. dielectric spectra of the composites with foreign object defects induced in them and using the state of art unsupervised learning methods of ML to identify them in real-time after manufacturing the materials. This will also serve as the initial step of a framework to predict the other modes of damage based on its materials state. We also propose hybrid methods of using unsupervised learning followed by supervised learning to improve accuracy in predictions and to remove outliers.


Engineering | Materials Science and Engineering

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Institute for Predictive Performance and Methodologies, The University of Texas at Arlington Research Institute, Fort Worth, TX

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Available for download on Wednesday, January 01, 3000