Litcius/Paper detail

A multimodal data-driven design of low pressure die casting gating system for aluminum alloy cabin

Zhiqiang Duan, Weipeng Chen, Xiao-long Pei, Hua Hou, Yuhong Zhao

2023Journal of Materials Research and Technology22 citationsDOIOpen Access PDF

Abstract

The design of gating systems for large and complex thin-wall castings requires the application of empirical equations and a substantial number of iterative experiments. In this study, a novel machine learning-based design strategy is proposed for the gating system of large and complex thin-walled castings. The gating system of castings was estimated using a multi-input multi-output neural network model, which incorporated visual, textual, and numerical multimodal features. The R2 value of the model accuracy reached 0.981, and the predicted parameters for the gating system were a slot runner width of 27mm, a slot runner length of 48mm, a riser runner diameter of 60mm, and the number of riser runners of 8. The EasyCast and Procast simulation software were utilized for comparison and verification, resulting in a smooth filling and the achievement of sequential solidification. Finally, the mechanism of casting defects is discussed using the solidification phase-field model of EasyPhase system, elucidating how the alloy system can serve as a distinguishing feature in machine learning models that impact gating system parameters. This strategy is anticipated to enhance the efficiency of low pressure die casting process design, thereby serving as a valuable reference for intelligent process design in low pressure die casting.

Topics & Concepts

GatingDie castingMaterials scienceProcess (computing)CastingArtificial neural networkPhase (matter)Mechanical engineeringFeature (linguistics)Systems designAlloyComputer scienceArtificial intelligenceEngineeringMetallurgyPhysiologySoftware engineeringBiologyChemistryOperating systemLinguisticsPhilosophyOrganic chemistryAluminum Alloy Microstructure PropertiesMetallurgical Processes and ThermodynamicsAdditive Manufacturing Materials and Processes