Dimensional Accuracy Analysis of Splined Shafts and Hubs Obtained by Fused-Deposition Modeling 3D Printing Using a Genetic Algorithm and Artificial Neural Network
Abstract
Splined assemblies ensure precise torque transmission and alignment in mechanical systems. Three-dimensional printing, especially FDM, enables fast production of customized components with complex geometries, reducing material waste and costs. Optimized printing parameters improve dimensional accuracy and performance. Dimensional accuracy is a critical aspect in the additive manufacturing of mechanical components, especially for splined shafts and hubs, where deviations can impact assembly precision and functionality. This study investigates the influence of key FDM 3D printing parameters—layer thickness, infill density, and nominal diameter—on the dimensional deviations of splined components. A full factorial experimental design was implemented, and measurements were conducted using a high-precision coordinate measuring machine (CMM). To optimize dimensional accuracy, artificial neural networks (ANNs) were trained using experimental data, and a genetic algorithm (GA) was employed for multi-objective optimization. Three ANN models were developed to predict dimensional deviations for different parameters, achieving high correlation coefficients (R2 values of 0.961, 0.947, and 0.910). The optimization process resulted in an optimal set of printing conditions that minimize dimensional errors. The findings provide valuable insights into improving precision in FDM-printed splined components, contributing to enhanced design tolerances and manufacturing quality.
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| Titel | Dimensional Accuracy Analysis of Splined Shafts and Hubs Obtained by Fused-Deposition Modeling 3D Printing Using a Genetic Algorithm and Artificial Neural Network |
|---|---|
| Medien | Applied Sciences 2025 |
| Verlag | MDPI |
| Herausgeber | MDPI |
| Heft | 15(7): |
| Band | 2025 |
| Verfasser | Prof. Dr.-Ing. Alexandru Sover, A.-D. Rizea , C.-F. Banică , T. Georgescu, D.-C. Anghel |
| Seiten | 3958 |
| Veröffentlichungsdatum | 03.04.2025 |
| Zitation | Sover, Alexandru; Rizea , A.-D.; Banică , C.-F.; Georgescu, T.; Anghel , D.-C. (2025): Dimensional Accuracy Analysis of Splined Shafts and Hubs Obtained by Fused-Deposition Modeling 3D Printing Using a Genetic Algorithm and Artificial Neural Network. Applied Sciences 2025 2025 ( 15(7):), 3958. DOI: 10.3390/app15073958 |