Title: Analysis of flow field of hydrodynamic suspension polishing disk based on multi-fractal method
Authors: Xiaohang Shan; Biqing Ye; Li Zhang
Addresses: Key Laboratory of Special Purpose Equipment and Advanced Processing Technology, Ministry of Education, Zhejiang University of Technology, Hangzhou 310014, China ' Key Laboratory of Special Purpose Equipment and Advanced Processing Technology, Ministry of Education, Zhejiang University of Technology, Hangzhou 310014, China ' Key Laboratory of Special Purpose Equipment and Advanced Processing Technology, Ministry of Education, Zhejiang University of Technology, Hangzhou 310014, China
Abstract: Amorphous film is an important amorphous material, which has a wide application prospect in the aspects of electronics, mechanics, chemical industry, national defence and so on. The quality of amorphous film substrate has a significant impact in the amorphous film performance. Hydrodynamic suspension polishing is a super-smooth and non-damage polishing method, which is suitable for the processing of amorphous film substrate. The characteristic of disk's flow field is the key factor for influencing the quality of polishing. The movement and distribution of abrasives in flow field is analysed in this paper by high speed photography technology. The distribution of bubbles and abrasives is extracted by MATLAB in the dynamic flow field of hydrodynamic suspension polishing based on fractal and multi-fractal theory. The multi-fractal spectrum is calculated and the association of multi-fractal spectra is analysed. The results show that when buoyancy meets the requirement, the lower the polishing disk rotational speed, the more uniform abrasive distribution. Polishing effect will be better with well continuity of polishing slurry.
Keywords: multi-fractal; flow field; multi-fractal spectra; suspension polishing.
DOI: 10.1504/IJCSM.2018.090711
International Journal of Computing Science and Mathematics, 2018 Vol.9 No.1, pp.13 - 20
Received: 30 Jul 2016
Accepted: 08 Apr 2017
Published online: 27 Mar 2018 *