Tool condition monitoring in micro milling of brittle materials.

This paper introduces a novel indirect tool condition monitoring (TCM) system for micro-milling brittle materials (glass and silicon) based on acoustic emission (AE) and cutting force signals. The milling experiments are also applied to a ductile material (steel) for comparison. Tool wear calibration is conducted to determine the three tool wear stages. The collected signals are processed in time, frequency, and time-frequency domains. Specific frequency subrange combinations of cutting force signals in three directions after wavelet packet decomposition show strong correlation to the tool wear stages, whilst processed AE signals are the secondary feature to the tool wear. A tool wear prediction model for each material is built based on all the chosen features and back propagation (BP) neural network. The prediction model is simply structured and highly efficient with the highest prediction accuracy of more than 95%. • A novel indirect tool condition monitoring system designed for micro-milling of brittle materials. • TCM system developed using the combination of acoustic emission and force sensors. • Special wavelet packet decomposition method was proposed for data processing. • High-accuracy tool wear prediction model was built and verified. [ABSTRACT FROM AUTHOR]