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Materials informatics approach to understand aluminum alloys

Ryo Tamura, Makoto Watanabe, Hiroaki Mamiya, Kota Washio, Masao Yano, Katsunori Danno, Akira Kato, Tetsuya Shoji

2020Science and Technology of Advanced Materials24 citationsDOIOpen Access PDF

Abstract

The relations between the mechanical properties, heat treatment, and compositions of elements in aluminum alloys are extracted by a materials informatics technique. In our strategy, a machine learning model is first trained by a prepared database to predict the properties of materials. The dependence of the predicted properties on explanatory variables, that is, the type of heat treatment and element composition, is searched using a Markov chain Monte Carlo method. From the dependencies, a factor to obtain the desired properties is investigated. Using targets of 5000, 6000, and 7000 series aluminum alloys, we extracted relations that are difficult to find via simple correlation analysis. Our method is also used to design an experimental plan to optimize the materials properties while promoting the understanding of target materials.

Topics & Concepts

Materials informaticsMaterials scienceAluminiumMonte Carlo methodInformaticsMaterial propertiesSeries (stratigraphy)Computer scienceHealth informaticsMetallurgyMathematicsComposite materialStatisticsEngineeringNursingPaleontologyPublic healthElectrical engineeringEngineering informaticsMedicineBiologyMachine Learning in Materials ScienceAluminum Alloy Microstructure PropertiesAdvanced Materials Characterization Techniques
Materials informatics approach to understand aluminum alloys | Litcius