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一种辅助预测的剩余使用寿命预测方法:混合铝/碳纤维增强聚合物叠层钻孔中的预测性维护案例研究

A forecast-assisted approach to remaining useful life prediction: a predictive maintenance case study in hybrid Al/CFRP stack drilling

International Journal of Production Research · 2025
被引 1
ABS 3

中文导读

提出一种混合统计-深度学习模型,用于预测混合材料叠层钻孔中刀具的剩余使用寿命,实现多步前向预测,帮助维护人员提前规划更换刀具。

Abstract

Predictive maintenance is a critical task in modern industries, particularly in high-value sectors such as aerospace, where the production of non-compliant parts can result in substantial financial losses. In aircraft manufacturing, the drilling of hybrid multi-material stacks is a key operation in the assembly process. Ensuring the optimal use of drilling tools is crucial for balancing the quality of the drilled holes with cost efficiency, with Remaining Useful Life (RUL) representing one of the key elements in achieving this balance. In this paper, a novel hybrid statistical-deep learning model is proposed to address the challenge of predictive maintenance in tool wear forecasting for multi-material stack drilling. Specifically, while prior studies on Tool Condition Monitoring (TCM) have focussed on estimating the current tool wear from sensor signals using deep learning, this work advances towards prediction by enabling real-time, multi–step-ahead forecasting of tool wear through a hybrid statistical–deep learning framework. This hybrid approach, explicitly designed to avoid data leakage, enables the prediction of the number of holes that can be drilled before tool replacement is required, facilitating timely planning for maintenance operations. Additionally, a new evaluation metric is discussed to assess the effectiveness of forecasts for the predictive maintenance task.

预测性维护工具磨损预测深度学习航空制造钻孔工艺