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Accelerated multi-objective alloy discovery through efficient bayesian methods: Application to the FCC high entropy alloy space

Trevor Hastings, Mrinalini Mulukutla, Danial Khatamsaz, Daniel Salas, Wenle Xu, Daniel Lewis, Nicole Person, Matthew Skokan, Braden Miller, James D. Paramore, Brady G. Butler, Douglas Allaire, Vahid Attari, İbrahim Karaman, George M. Pharr, Ankit Srivastava, Raymundo Arróyave

2025Acta Materialia10 citationsDOIOpen Access PDF

Abstract

This study introduces BIRDSHOT, an integrated Bayesian materials discovery framework designed to efficiently explore complex compositional spaces while optimizing multiple material properties. We applied this framework to the CoCrFeNiVAl FCC high entropy alloy (HEA) system, targeting three key performance objectives: ultimate tensile strength/yield strength ratio, hardness, and strain rate sensitivity. The experimental campaign employed an integrated cyber-physical approach that combined vacuum arc melting (VAM) for alloy synthesis with advanced mechanical testing, including tensile and high-strain-rate nanoindentation testing. By incorporating batch Bayesian optimization schemes that allowed the parallel exploration of the alloy space, we completed five iterative design-make-test-learn loops, identifying a non-trivial three-objective Pareto set in a high-dimensional alloy space. Notably, this was achieved by exploring only 0.15% of the feasible design space, representing a significant acceleration in discovery rate relative to traditional methods. This work demonstrates the capability of BIRDSHOT to navigate complex, multi-objective optimization challenges and highlights its potential for broader application in accelerating materials discovery.

Topics & Concepts

AlloyMaterials scienceHigh entropy alloysBayesian optimizationEntropy (arrow of time)Bayesian probabilityMetallurgyThermodynamicsArtificial intelligenceComputer sciencePhysicsAdditive Manufacturing Materials and ProcessesAdvanced Materials Characterization TechniquesHigh Entropy Alloys Studies
Accelerated multi-objective alloy discovery through efficient bayesian methods: Application to the FCC high entropy alloy space | Litcius