AI Article Synopsis
- Process simulation helps optimize the resin transfer molding process but is expensive and complex due to its multi-physical, multi-scale nature.
- This study introduces K-nearest neighbors and artificial neural network metamodels to create predictive models that relate the input (like resin injection location and viscosity) to output features (such as required vents and maximum injection pressure).
- The trained metamodels show strong prediction accuracy, with KNN achieving a 5.0% to 15.7% error range and ANN ranging from 6.7% to 17.5%, highlighting the potential of metamodeling for efficient applications in composite molding and digital twinning.
Article Abstract
Process simulation is frequently adopted to facilitate the optimization of the resin transfer molding process. However, it is computationally costly to simulate the multi-physical, multi-scale process, making it infeasible for applications involving huge datasets. In this study, the application of K-nearest neighbors and artificial neural network metamodels is proposed to build predictive surrogate models capable of relating the mold-filling process input-output correlations to assist mold designing. The input features considered are the resin injection location and resin viscosity. The corresponding output features investigated are the number of vents required and the resultant maximum injection pressure. Upon training, both investigated metamodels demonstrated desirable prediction accuracies, with a low prediction error range of 5.0% to 15.7% for KNN metamodels and 6.7% to 17.5% for ANN metamodels. The good prediction results convincingly indicate that metamodeling is a promising option for composite molding applications, with encouraging prospects for data-intensive applications such as process digital twinning.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10532771 | PMC |
| http://dx.doi.org/10.3390/ma16186115 | DOI Listing |
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