Author:
Zhang Jia-Bo,Yang Yang,Zhang Xiao-Hui,Guan Jia-Liang,Zheng Li-Yan,Li Guang
Abstract
Purpose
The purpose of this study is to investigate the characteristic and function of oxide film formed on grinding wheel in electrolytic in-process dressing (ELID) precision grinding and improve the quality of ELID grinding.
Design/methodology/approach
Dynamic film forming experiments were carried out with a simulation device close to the actual processing conditions. Then, the ELID grinding experiments of bearing rings were performed using grinding wheels with good film forming effect. The experiment was designed by quadratic regression general rotation combination method. The influence of grinding depth, electrolytic voltage, duty cycle and grinding wheel linear speed on grinding effect is analyzed.
Findings
A mathematical model for the formation rate of oxide film was established. The experiments show that the composition of grinding wheel and grinding fluid, as well as the electrical parameters, influence the film forming effect. Thus, the oxide film plays an important role in ELID grinding.
Originality/value
This study provides a reference for the design and selection of grinding wheel and grinding fluid and the setting of process parameters in ELID grinding.
Subject
Surfaces, Coatings and Films,General Energy,Mechanical Engineering
Reference16 articles.
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3. ELID grinding and tribological characteristics of TiAlN film;International Journal of Machine Tools and Manufacture,2002
4. Study of alpha-Fe2O3 formation and its measurement in oxide films of wheel surface during ELID grinding process;Modern Physics Letters B,2017
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