Shallow Recurrent Decoders map point-kinetics time series to multi-group diffusion solutions on a benchmark reactor geometry.
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Diffusion-induced grain boundary migration is the dominant mechanism for rapid Cr dealloying and porosity formation in Ni-30Cr during molten chloride salt exposure, with surface-induced grain structure dictating the corrosion morphology.
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Multi-Fidelity Learning with Shallow Recurrent Decoders for Reactor Physics
Shallow Recurrent Decoders map point-kinetics time series to multi-group diffusion solutions on a benchmark reactor geometry.
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Role of diffusion-induced grain boundary migration during molten salt corrosion of a Ni-30Cr alloy
Diffusion-induced grain boundary migration is the dominant mechanism for rapid Cr dealloying and porosity formation in Ni-30Cr during molten chloride salt exposure, with surface-induced grain structure dictating the corrosion morphology.