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Heterogeneous sensing and scientific machine learning for quality assurance in laser powder bed fusion – A single-track study

Aniruddha Gaikwad, Brian Giera, Gabriel M. Guss, Jean‐Baptiste Forien, Manyalibo J. Matthews, Prahalada Rao

2020Additive manufacturing120 citationsDOIOpen Access PDF

Abstract

Laser Powder Bed Fusion (LPBF) is the predominant metal additive manufacturing technique that benefits from a significant body of academic study and industrial investment given its ability to create complex geometry parts. Despite LPBF’s widespread use, there still exists a need for process monitoring to ensure reliable part production and reduce post-build quality assessments. Towards this end, we develop and evaluate machine learning-based predictive models using height map-derived quality metrics for single tracks and the accompanying pyrometer and high-speed video camera data collected under a wide range of laser power and laser velocity settings. We extract physically intuitive low-level features representative of the meltpool dynamics from these sensing modalities and explore how these vary with the linear energy density. We find our Sequential Decision Analysis Neural Network (SeDANN) model – a scientific machine learning model that incorporates physical process insights – outperforms other purely data-driven black box models in both accuracy and speed. The general approach to data curation and adaptable nature of SeDANN’s scientifically informed architecture should benefit LPBF systems with an evolving suite of sensing modalities and post-build quality measurements.

Topics & Concepts

PyrometerProcess (computing)Artificial intelligenceComputer scienceQuality (philosophy)Deep learningModalitiesBlack boxMachine learningRange (aeronautics)Sensor fusionFusionQuality assuranceLaser power scalingMaterials scienceLaserData miningOpticsTemperature measurementEngineeringExternal quality assessmentOperations managementPhysicsOperating systemQuantum mechanicsLinguisticsPhilosophySociologyEpistemologyComposite materialSocial scienceAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesLaser Material Processing Techniques
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