A Hybrid Prediction Method of Thermal Extension Error for Boring Machine Based on PCA and LS-SVM

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Abstract

Thermal extension error of boring bar in z-Axis is one of the key factors that have a bad influence on the machining accuracy of boring machine, so how to exactly establish the relationship between the thermal extension length and temperature and predict the changing rule of thermal error are the premise of thermal extension error compensation. In this paper, a prediction method of thermal extension length of boring bar in boring machine is proposed based on principal component analysis (PCA) and least squares support vector machine (LS-SVM) model. In order to avoid the multiple correlation and coupling among the great amount temperature input variables, firstly, PCA is introduced to extract the principal components of temperature data samples. Then, LS-SVM is used to predict the changing tendency of the thermally induced thermal extension error of boring bar. Finally, experiments are conducted on a boring machine, the application results show that Boring bar axial thermal elongation error residual value dropped below 5 μm and minimum residual error is only 0.5 μm. This method not only effectively improve the efficiency of the temperature data acquisition and analysis, and improve the modeling accuracy and robustness.

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APA

Cheng, Q., Yu, Y., Li, G., Li, W., Sun, B., & Cai, L. (2017). A Hybrid Prediction Method of Thermal Extension Error for Boring Machine Based on PCA and LS-SVM. In MATEC Web of Conferences (Vol. 95). EDP Sciences. https://doi.org/10.1051/matecconf/20179507010

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