Enhancing data representation in forging processes: Investigating discretization and R-adaptivity strategies with Proper Orthogonal Decomposition reduction
Article dans une revue avec comité de lecture
Date
2024-12Journal
Finite Elements in Analysis and DesignRésumé
Effective data reduction techniques are crucial for enhancing computational efficiency in complex industrial processes such as forging. In this study, we investigate various discretization and mesh adaptivity strategies using Proper Orthogonal Decomposition (POD) to optimize data reduction fidelity in forging simulations. We focus particularly on r-adaptivity techniques, which ensure a
consistent number of elements throughout the field representation, filling a gap in existing research that predominantly concentrates on h-adaptivity. Our investigation compares isotropic mesh approaches with anisotropic mesh adaptations, including gradient-based, isolines-based, and spring-energy-based methods. Through numerical simulations and analysis, we demonstrate
that these anisotropic techniques provide superior fidelity in representing deformation fields compared to isotropic meshes. These improvements are achieved while maintaining a similar level of model reduction efficiency. This enhancement in representation leads to improved data reduction quality, forming the foundation for data-driven models. This research contributes to advancing the understanding of mesh adaptivity approaches and their potential applications in data-driven modeling across various industrial domains.
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- LCFC_FINEL_2024_URIBE.pdf
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- Main scientific article
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Documents liés
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Communication avec acteURIBE, David; DURAND, Camille; BAUDOUIN, Cyrille; KRUMPIPE, Pierre; BIGOT, Regis (Springer Nature Switzerland, 2023-08)Forging processes are defined by variables related to the workpiece, the tools, the machine, and the process itself, and these variables are called process variables. They have a direct impact on the quality of the finished ...
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Article dans une revue avec comité de lectureURIBE, David; BAUDOUIN, Cyrille; DURAND, Camille; BIGOT, Regis (Springer Science and Business Media LLC, 2023-12)In the realm of forging processes, the challenge of real-time process control amid inherent variabilities is prominent. To tackle this challenge, this article introduces a Proper Orthogonal Decomposition (POD)-based ...
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Article dans une revue avec comité de lectureURIBE, David; DURAND, Camille; BAUDOUIN, Cyrille; BIGOT, Regis (Springer Science and Business Media LLC, 2024-10)Numerical simulations are crucial for predicting outcomes in forging processes but often neglect dynamic interactions within forming tools and presses. This study proposes an approach for achieving accurate real-time ...
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Communication avec acteURIBE, David; BAUDOUIN, Cyrille; LOCARD, Yoan; DURAND, Camille; BIGOT, Regis (Materials Research Forum LLC, 2024-05)This article presents a two-step method to enhance metal-forming predictions by integrating Virtual Reality (VR) into Digital Twin models, focusing on single-blow cold copper upsetting operations. The process begins with ...
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Article dans une revue sans comité de lectureDepuis plusieurs années, les processus de fabrication sont progressivement automatisés pour améliorer leur répétabilité et leur reproductibilité. Parallèlement, des optimisations sont apportées afin d’améliorer la robustesse ...