Litcius/Paper detail

Performance-oriented multistage design for multi-principal element alloys with low cost yet high efficiency

Jia Li, Baobin Xie, Li Li, Bin Liu, Yong Liu, D.G. Shaysultanov, Qihong Fang, Nikita Stepanov, Peter K. Liaw

2022Materials Horizons27 citationsDOI

Abstract

Multi-principal element alloys (MPEAs) with remarkable performances possess great potential as structural, functional, and smart materials. However, their efficient performance-orientated design in a wide range of compositions and types is an extremely challenging issue, because of properties strongly dependent upon the composition and composition-dominated microstructure. Here, we propose a multistage-design approach integrating machine learning, physical laws and a mathematical model for developing the desired-property MPEAs in a very time-efficient way. Compared to the existing physical model- or machine-learning-assisted material development, the forward-and-inverse problems, including identifying the target property and unearthing the optimal composition, can be tackled with better efficiency and higher accuracy using our proposed avenue, which defeats the one-step component-performance design strategy by multistage-design coupling constraints. Furthermore, we developed a new multi-phase MPEA at the minimal time and cost, whose high strength-ductility synergy exceeded those of its system and subsystem reported so far by searching for the optimal combination of phase fraction and composition. The present work suggests that the property-guided composition and microstructure are precisely tailored through the newly built approach with significant reductions of the development period and cost, which is readily extendable to other multi-principal element materials.

Topics & Concepts

Ductility (Earth science)Computer scienceInversePrincipal component analysisProperty (philosophy)Phase (matter)Principal (computer security)Optimal designCoupling (piping)Range (aeronautics)MicrostructureComponent (thermodynamics)Composition (language)Work (physics)Materials scienceMathematical optimizationMechanical engineeringArtificial intelligenceEngineeringMachine learningMathematicsComposite materialThermodynamicsEpistemologyGeometryPhysicsLinguisticsPhilosophyOrganic chemistryChemistryOperating systemCreepHigh Entropy Alloys StudiesAdditive Manufacturing Materials and ProcessesChalcogenide Semiconductor Thin Films