| About this Abstract |
| Meeting |
2024 TMS Annual Meeting & Exhibition
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| Symposium
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Materials Informatics to Accelerate Nuclear Materials Investigation
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| Presentation Title |
Deep Neural Network for Porosity and Microstructure Analytics of a High Burnup U-10Zr Metallic Solid Fuel
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| Author(s) |
Fei Xu, Elijah Danquah Darko , Lu Cai, Daniele Salvatoa, Fidelma Giulia Di Lemmaa, Luca Capriottib, Tiankai Yao, Min Xian |
| On-Site Speaker (Planned) |
Fei Xu |
| Abstract Scope |
U-10Zr metallic fuel is the leading candidate for next-generation sodium-cooled fast reactors. Porosity and fuel constitutional redistribution are two important factors on changing the thermal conductivity, fuel composition etc. Therefore, it is crucial to accurately segment and analyze porosity and microstructure distributions to understand the U-10Zr fuel system and design future fast reactors. To address the above issues, we developed deep fully convolutional networks on Scanning Electron Microscopy (SEM) data to segment pores accurately and classify multiple phases, including pure Zr, Nd, pores, and two matrices α-U and (U, Zr). Sufficient comparison results demonstrate that our method quantitatively outperforms other models on multiple lens SEM images. Finally, quantitative porosity and microstructure analysis results of whole cross-sectional images are discussed. Our findings will provide a mechanistic understanding of the U-10Zr fuel system and bridge the gap between advanced characterization to fuel system design. |
| Proceedings Inclusion? |
Planned: |
| Keywords |
Machine Learning, Nuclear Materials, Mechanical Properties |