Effects of Seawater on Mechanical Performance of Composite Sandwich Structures: A Machine Learning Framework.
Norman Osa-UwagboeAmadi Gabriel UduVadim V SilberschmidtKonstantinos P BaxevanakisEmrah DemirciPublished in: Materials (Basel, Switzerland) (2024)
Sandwich structures made with fibre-reinforced plastics are commonly used in maritime vessels thanks to their high strength-to-weight ratios, corrosion resistance, and buoyancy. Understanding their mechanical performance after moisture uptake and the implications of moisture uptake for their structural integrity and safety within out-of-plane loading regimes is vital for material optimisation. The use of modern methods such as acoustic emission (AE) and machine learning (ML) could provide effective techniques for the assessment of mechanical behaviour and structural health monitoring. In this study, the AE features obtained from quasi-static indentation tests on sandwich structures made from E-glass fibre face sheets with polyvinyl chloride foam cores were employed. Time- and frequency-domain features were then used to capture the relevant information and patterns within the AE data. A k -means++ algorithm was utilized for clustering analysis, providing insights into the principal damage modes of the studied structures. Three ensemble learning algorithms were employed to develop a damage-prediction model for samples exposed and unexposed to seawater and were loaded with indenters of different geometries. The developed models effectively identified all damage modes for the various indenter geometries under different loading conditions with accuracy scores between 86.4 and 95.9%. This illustrates the significant potential of ML for the prediction of damage evolution in composite structures for marine applications.
Keyphrases
- machine learning
- high resolution
- oxidative stress
- big data
- artificial intelligence
- deep learning
- healthcare
- public health
- body mass index
- drug delivery
- molecularly imprinted
- electronic health record
- single cell
- cancer therapy
- mass spectrometry
- risk assessment
- convolutional neural network
- health promotion
- wound healing
- neural network
- data analysis
- single molecule