Study on a Novel Strategy for High-Quality Grinding Surface Based on the Coefficient of Friction

Yang Li, Li Jiao, Yanhou Liu, Yebing Tian, Tianyang Qiu, Tianfeng Zhou, Xibin Wang, Bin Zhao*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Surface quality has a significant impact on the service life of machine parts. Grinding is often the last process to ensure surface quality and accuracy of material formation. In this study, a high-quality surface was developed by determining the coefficient of friction in grinding a quartz fiber-reinforced silica ceramic composite. By processing the physical signals in the grinding process, a multi-objective function was established by considering grinding parameters, i.e., surface roughness, coefficient of friction, active energy consumption, and effective grinding time. The weight vector coefficients of the sub-objective functions were optimized through a multi-objective evolutionary algorithm based on the decomposition (MOEA/D) algorithm. The genetic algorithm was used to optimize the process parameters of the multi-objective function, and the optimal range for the coefficient of friction was determined to be 0.197~0.216. The experimental results indicated that when the coefficient of friction tends to 0.197, the distribution distance of the microscopic data points on the surface profile is small and the distribution uniformity is good. When the coefficient of friction tends to 0.216, the surface profile shows a good periodic characteristic. The quality of a grinding surface depends on the uniformity and periodicity of the surface’s topography. The coefficient of friction explained the typical physical characteristics of high-quality grinding surfaces. The multi-objective optimization function was even more important for the subsequent high-quality machining of mechanical parts to provide guidance and reference significance.

Original languageEnglish
Article number351
JournalLubricants
Volume11
Issue number8
DOIs
Publication statusPublished - Aug 2023

Keywords

  • coefficient of friction
  • distribution uniformity
  • periodic components
  • signal processing
  • surface quality

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