Affiliation:
1. The Behrend College, Penn State Erie, Erie, PA 16563
Abstract
Tracking the health of cutting tools under typical wear conditions is advantageous to the speed and efficiency of manufacturing processes. Existing techniques monitor tool performance through analyzing force or acceleration signals whereby prognoses are made from a single sensor type. This work proposes to enhance the spectral output of autoregressive (AR) models by combining triaxial accelerometer and triaxial dynamometer signals. Through parallel processing of force and acceleration signals using single six degree of freedom modeling, greater spectral resolution is achieved. Two entirely independent methods of tracking the tool wear are developed and contrasted. First, using the discrete cosine transform, primary component analysis will be applied to the spectral output of each AR auto and cross spectrum (Method 1). Each discrete cosine transform of the six-dimensional spectral data is analyzed to determine the magnitude of the critical (primary) variance energy component of the respective spectrum. The eigenvalues of these selected spectral energies are then observed for trends toward failure. The second method involves monitoring the eigenvalues of the spectral matrices centered at the toothpass frequency (Method 2). The results of the two methodologies are compared. Through the use of the eigenvalue method, it is shown that, for straight and pocketing maneuvers, both methods successfully track the condition of the tool using statistical thresholding. The techniques developed in this work are shown to be robust by multiple life tests conducted on different machine platforms with different operating conditions. Both techniques successfully identify impending fracture or meltdown due to wear, providing sufficient time to remove the tools before failure is realized.
Subject
Industrial and Manufacturing Engineering,Computer Science Applications,Mechanical Engineering,Control and Systems Engineering
Reference17 articles.
1. A Machine Diagnostic Study for In-Process Quality Control Using Neural Network;Kubo
2. An Artificial-Neural-Networks-Based in-Process Tool Wear Prediction System in Milling Operations;Chen;Int. J. Adv. Manuf. Technol.
3. Tool Wear Monitoring in Machining Processes Through Wavelet Analysis;Wang;Trans. North Am. Manuf. Res. Inst. SME
4. Fuzzy Logic Based In-Process Tool-Wear Monitoring System in Face Milling Operations;Susanto;Int. J. Adv. Manuf. Technol.
5. Discrimination of the Tool Failure Patterns With Simultaneous Approach of Fuzzy Clustering, Principle Components and Multiple Regression Analysis;Nagasaka
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