Theoretical and experimental investigation of surface generation in swing precess bonnet polishing of complex three-dimensional structured surfaces

被引:31
作者
Cao, Zhong-Chen [1 ]
Cheung, Chi Fai [1 ]
Ho, Lai Ting [1 ]
Liu, Ming Yu [1 ]
机构
[1] Hong Kong Polytech Univ, Dept Ind & Syst Engn, Partner State Key Lab Ultra Precis Machining Tech, Kowloon, Hong Kong, Peoples R China
来源
PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY | 2017年 / 50卷
关键词
Swing precess bonnet polishing; Modeling and simulation; Material removal characteristics; Surface generation; Complex 3D structured surfaces; Ultra-precision machining; MOLDING DIES; FLUID JET; MU-M; REMOVAL; NANOSTRUCTURE; SIMULATION; EQUIPMENT;
D O I
10.1016/j.precisioneng.2017.06.010
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Three-dimensional structured surfaces (3D-structured surfaces) possessing specially designed functional textures are widely used in the development of advanced products. This paper presents a novel swing precess bonnet polishing (SPBP) method for generating complex 3D-structured surfaces which is accomplished by the combination of specific polishing tool orientation and tool path. The SPBP method is a sub-aperture finishing process in which the polishing spindle is swung around the normal direction of the target surface within the scope of swing angle while moving around the center of the bonnet. This is quite different from the 'single precess' and 'continuous precessing' polishing regime, in which the precess angle is constant. The technological merits of the SPBP were realized through a series of polishing experiments. The results show that the generation of complex 3D-structured surfaces is affected by many factors which include point spacing, track spacing, swing speed, swing angle, head speed, tool pressure, tool radius, feed rate, polishing depth, polishing cloth, polishing strategies, polishing slurry, etc. To better understand and determine the surface generation of complex 3D-structured surfaces by the SPBP method, a multi-scale material removal model and hence a surface generation model have been built for characterizing the tool influence function and predicting the 3D-structured surface generation in SPBP based on the study of contact mechanics, kinematics theory, abrasive wear mechanism, and the convolution of the tool influence function and dwell time map along the swing precess polishing tool path. The predicted results agree reasonably well with the experimental results. (C) 2017 Elsevier Inc. All rights reserved.
引用
收藏
页码:361 / 371
页数:11
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