Affiliation:
1. School of Mechanical Science and Engineering, Huazhong University of Science and Technology, Wuhan, China
Abstract
The surface roughness is an important characterization of the products performance, and its estimation is required to evaluate the machining accuracy level of the turning machining or its machining condition monitoring. Traditional methods are using machining parameters or combined machining parameters with tool vibration to predict the surface roughness. But for a steel disc part turning machining, the surface roughness value on a circumference trajectory is not the same as one section of the trajectory because randomness element will exist in surface roughness value. This paper proposed a machine learning approach of using Gaussian-process-based Bayesian combined model to construct surface roughness trajectory prediction. Gaussian-process-based Bayesian combined model is a good machine learning method for dealing with variable with random element and introduced into building the correlation between surface roughness and surface roughness increment for next point in a trajectory. To show the process of the method establishing the model, a simulation is carried on first. Then, a turning experiment was conducted. The experimental results verify that Gaussian-process-based Bayesian combined model compared with Gaussian-process model can be used to predict the surface roughness in a more reliable way.
Funder
National Natural Science Foundation of China
Cited by
3 articles.
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