A novel technology for real-time monitoring of tool wear in precision machining has been developed, utilizing smartphone sensors. This advancement is expected to enhance the quality of production by enabling proactive maintenance and timely tool replacement.
A joint research team, led by Professor Chung Wook Park from the Department of Mechanical Engineering and Professor Sunghoon Lim from the Graduate School of Industrial Engineering and Artificial Intelligence at UNIST has created a method for real-time tool wear prediction. This innovative approach aims to facilitate the timely replacement of cutting tools, optimizing production efficiency.
The findings of this research are published in the Journal of Manufacturing Systems.
In this study, the team introduced a deep learning-based predictive model that incorporates filtering techniques to mitigate data noise and account for uncertainties encountered during processing. This method significantly enhances both the performance and reliability of tool wear predictions while improving accuracy compared to previous research endeavors.
Titanium alloy (Ti-6Al-4V), prevalent in high-tech manufacturing sectors, such as aerospace and biomedical fields, poses challenges due to rapid tool wear resulting from its poor thermal properties. Consequently, there is a critical need for real-time monitoring of tool conditions.
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