Affiliation:
1. Chongqing University
2. Avic Xi'an Aero-Engine (Group) Ltd.
Abstract
In abrasive belt grinding Titanium alloy blade of aviation engine experiment, through the single factor experiment method, the influence of abrasive belt linear speed and work-piece feeding speed on the grinding quantity is discussed. The relationship between the clogging degree of abrasive belt and grinding time is analyzed. Then the influence of abrasive belt linear speed and work-piece feeding speed on the clogging degree of belt is discussed. The results indicate that when grinding time is 3 ~ 30 min or so, the clogging degree of belt does not change significantly. Therefore the grinding process is relatively stable.
Publisher
Trans Tech Publications, Ltd.
Reference8 articles.
1. Liu Yan. The blade manufacture technology[M]. Beijing: Science press, 2002(9): 19-24.
2. Huang Yun, Huang Zhi. Modern belt grinding technology and engineering applications[M]. Chongqing: Chongqing university press, (2009).
3. L. Yi, Y. Huang, G. H. Liu. Experimental research on the electrochemical abrasive belt grinding 0Cr17Ni4Cu4Nb stainless steel[J]. Advances in Materials Manufacturing Science and Technology, 2009, 626-627: 617-622.
4. Huang Zhi, Huang Yun. The Development of Cutter Location Algorithm for the 6-axis Simultaneous CNC Abrasive Belt Grinding Complex Surface, Key Engineering Materials, 2009, 416: 375~380.
5. X.Y. Re, K. Bernd. Real time simulation and visualization of robotic belt grinding processes[J]. International Journal of Advanced Manufacturing Technology, 2008, 35: 1090-1099.
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