Research on Online Monitoring Technology and Filtration Process of Inclusions in Aluminum Melt

• Published in: Sensors (Basel, Switzerland) Vol. 24; no. 9; p. 2757
• Main Authors: Wu, Yunfei, Yan, Hao, Wang, Jiahao, Zheng, Jincan, Na, Xianzhao, Wang, Xiaodong
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 01.05.2024
• Subjects: Algorithms; Alloys; aluminum alloy filtration process; Aluminum alloys; aluminum melt; Casting; Circuits; Corrosion resistance; Digital signal processors; Ductility; Efficiency; Gases; inclusions; Measurement techniques; Metal fatigue; Monitoring systems; online monitoring; Particle size; Quality control; Signal processing; Software; Visualization (Computers); China; Switzerland; aluminum alloy filtration process; aluminum melt; signal processing; inclusions; online monitoring
• ISSN: 1424-8220; 1424-8220
• DOI: 10.3390/s24092757

Online monitoring and real-time feedback on inclusions in molten metal are essential for metal quality control. However, existing methods for detecting aluminum melt inclusions face challenges, including interference, prolonged processing times, and latency. This paper presents the design and development of an online monitoring system for molten metal inclusions. Initially, the system facilitates real-time adjustment of signal acquisition parameters through a multiplexer. Subsequently, it employs a detection algorithm capable of swiftly extracting pulse peaks, with this task integrated into our proprietary host computer software to ensure timely detection and data visualization. Ultimately, we developed a monitoring device integrated with this online monitoring system, enabling the online monitoring of the aluminum alloy filtration process. Our findings indicate that the system can accurately measure the size and concentration of inclusions during the filtration process in real time, offering enhanced detection speed and stability compared to the industrial LiMCA CM (liquid metal cleanliness analyzer continuous monitoring) standard. Furthermore, our evaluation of the filtration process demonstrates that the effectiveness of filtration significantly improves with the increase in inclusion sizes, and the synergistic effect of combining CFF (ceramic foam filter) and MCF (metallics cartridge filter) filtration methods exceeds the performance of the CFF method alone. This system thus provides valuable technical support for optimizing filtration processes and controlling inclusion quality.