Abstract / Description of output
Laser Powder Bed Fusion (LPBF) is a promising additive manufacturing technique used for realizing complex and bespoke designed metal parts. Despite its good performance, its quality assurance is still hampered by the absence of in-process optimization and control. In this sense, real-time thermal analysis can facilitate fault predictions and rectifications. High-fidelity three-dimensional thermal modelling with the Finite Element Method (FEM) is generally time-consuming since the heat transfer equation is nonlinear and high-dimensional. The challenge is thus to compute fast, reliable and accurate thermal predictions that capture the nonlinearity triggered by the phase changes of the part during printing. Gaussian Process (GP) with Isomap dimension reduction is investigated to find and predict the low-dimensional representations of the high-dimensional thermal profiles in FEM without intricate processing. Based on these representations, the high-dimensional predictions are then approximated using localized radial basis functions. To validate the performance of this reduced GP heat emulator, a heat simulation during fabricating an Aluminum object is performed to compare FEM-based temperature calculations against reduced GP emulations. Retaining 0.06% of the original model dimension the execution time per temperature profile is 0.70s on average achieving a 95.07% reduction, while maintaining at least 85% accuracy (with respect to the FEM simulation) for 96.80% of the thermal profile queries and at least 80%
80
%
for 89.38% of the thermal history queries. With this encouraging performance, the reduced GP heat emulator can be a step forward in online defect prediction, process optimization and closed-loop control in LPBF.
80
%
for 89.38% of the thermal history queries. With this encouraging performance, the reduced GP heat emulator can be a step forward in online defect prediction, process optimization and closed-loop control in LPBF.
Original language | English |
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Title of host publication | Proceedings of the Changeable, Agile, Reconfigurable and Virtual Production Conference and the World Mass Customization & Personalization Conference |
Subtitle of host publication | Towards Sustainable Customization: Bridging Smart Products and Manufacturing Systems |
Publisher | SpringerLink |
Pages | 285-293 |
ISBN (Print) | 9783030906993 |
DOIs | |
Publication status | Published - 1 Nov 2021 |
Event | 8th Changeable, Agile, Reconfigurable and Virtual Production Conference, CARV 2021 and 10th World Mass Customization and Personalization Conference, MCPC 2021 - Aalborg, Denmark Duration: 1 Nov 2021 → 2 Nov 2021 |
Publication series
Name | Lecture Notes in Mechanical Engineering |
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Publisher | Springer |
ISSN (Print) | 2195-4356 |
ISSN (Electronic) | 2195-4364 |
Conference
Conference | 8th Changeable, Agile, Reconfigurable and Virtual Production Conference, CARV 2021 and 10th World Mass Customization and Personalization Conference, MCPC 2021 |
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Country/Territory | Denmark |
City | Aalborg |
Period | 1/11/21 → 2/11/21 |
Keywords / Materials (for Non-textual outputs)
- Finite Element Method
- Gaussian process
- Laser powder bed fusion
- Nonlinear dimension reduction
- Transient thermal model