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Predictions and uncertainty estimates of reactor pressure vessel steel embrittlement using Machine learning

Ryan Jacobs, Takuya Yamamoto, G.R. Odette, Dane Morgan

2023Materials & Design26 citationsDOIOpen Access PDF

Abstract

An essential aspect of extending safe operation of the world’s active nuclear reactors is understanding and predicting the embrittlement that occurs in the steels that make up the Reactor pressure vessel (RPV). In this work we integrate state of the art machine learning methods using ensembles of neural networks with unprecedented data collection and integration to develop a new model for RPV steel embrittlement. The new model has multiple improvements over previous machine learning and hand-tuned efforts, including greater accuracy (e.g., at high-fluence relevant for extending the life of present reactors), wider domain of applicability (e.g., including a wide-range of compositions), uncertainty quantification, and online accessibility for easy use by the community. These improvements provide a model with significant new capabilities, including the ability to easily and accurately explore compositions, flux, and fluence effects on RPV steel embrittlement for the first time. Furthermore, our detailed comparisons show our approach improves on the leading American Society for Testing and Materials (ASTM) E900-15 standard model for RPV embrittlement on every metric we assessed, demonstrating the efficacy of machine learning approaches for this type of highly demanding materials property prediction.

Topics & Concepts

EmbrittlementReactor pressure vesselMaterials scienceMetric (unit)Nuclear engineeringNeutron fluxPressure vesselMachine learningArtificial neural networkFluenceArtificial intelligenceComputer scienceMetallurgyIrradiationEngineeringComposite materialNuclear physicsNeutronOperations managementPhysicsHydrogen embrittlement and corrosion behaviors in metalsNuclear Materials and PropertiesMachine Learning in Materials Science
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