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Al-enabled properties distribution prediction for high-pressure die casting Al-Si alloy
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作者 Yu-Tong Yang Zhong-Yuan Qiu +6 位作者 Zhen Zheng Liang-Xi Pu ding-ding chen Jiang Zheng Rui-Jie Zhang Bo Zhang Shi-Yao Huang 《Advances in Manufacturing》 SCIE EI CAS 2024年第3期591-602,共12页
High-pressure die casting(HPDC)is one of the most popular mass production processes in the automotive industry owing to its capability for part consolidation.However,the nonuniform distribution of mechanical propertie... High-pressure die casting(HPDC)is one of the most popular mass production processes in the automotive industry owing to its capability for part consolidation.However,the nonuniform distribution of mechanical properties in large-sized HPDC products adds complexity to part property evaluation.Therefore,a methodology for property prediction must be developed.Material characterization,simulation technologies,and artificial intelligence(AI)algorithms were employed.Firstly,an image recognition technique was employed to construct a temperature-microstructure characteristic model for a typical HPDC Al7Si0.2Mg alloy.Moreover,a porosity/microstructure-mechanical property model was established using a machine learning method based on the finite element method and representative volume element model results.Additionally,the computational results of the casting simulation software were mapped with the porosity/microstructure-mechanical property model,allowing accurate prediction of the property distribution of the HPDC Al-Si alloy.The AI-enabled property distribution model developed in this study is expected to serve as a foundation for intelligent HPDC part design platforms in the automotive industry. 展开更多
关键词 Artificial intelligence(AI) Properties prediction High-pressure die-casting(HPDC) Image recognition Machine learning
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