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Data extension-based analysis and application selection of process-composition-properties of die casting aluminum alloy

Jian Yang, Bo Liu, Yunbo Zeng, Yiben Zhang, Haiyou Huang, Jichao Hong

2024Engineering Applications of Artificial Intelligence10 citationsDOIOpen Access PDF

Abstract

This research aims to provide a solution to the scarcity and fragmentation of industrial data on die casting aluminum alloys . Quantifying the coupling between die casting process-composition-properties of aluminum alloys through small datasets, is a critical step in predicting part properties and optimizing process selection. To visualize the connections and discuss the effect of the interaction between different parameters on the property, data is fed into a self-organizing mapping model. Whereafter, an innovative data extension method is proposed to predict both yield and tensile strengths with more than 96% accuracy using a small data set. Moreover, two novel methods of multi-parameter combined range selection, the multi-objective optimization based on the agent model and the superimposition of the contour map, are guided by being informed in which region the mechanical properties fall. Finally, the feasibility of application range selection method is verified experimentally. Mapping based on data-driven process-composition-properties relationships and the free combination of application ranges are reliable theoretical solutions which are valuable for practical applications.

Topics & Concepts

Computer scienceExtension (predicate logic)AlloyComposition (language)Process (computing)Die castingSelection (genetic algorithm)MetallurgyDie (integrated circuit)Materials scienceArtificial intelligenceProgramming languageOperating systemLinguisticsPhilosophyEngineering Technology and MethodologiesManufacturing Process and OptimizationMetallurgy and Material Forming
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