Optics and Precision Engineering, Volume. 20, Issue 11, 2485(2012)
Experiments of synergistic effect of electro-magnetically coupled field in EMR finishing
References(15)
[1] [1] ZHONG Z W. Recent advances in polishing of advanced materials[J]. Materials and Manufacturing Processes, 2008, 23(5): 449-456.
[2] [2] KORDONSKI W, GORODKIN S. Material removal in magnetorheological finishing of optics[J]. Applied Optics, 2011, 50: 1984-1994.
[3] [3] TANAKA T. Polishing performance of electro-rheological fluid of polymerized liquid crystal contained abrasive grit[J]. Key Engineering Materials, 2009, 404: 123-130.
[4] [4] ZHAO Y W, ZHANG L, YANG ZH. Investigation into normal pressure during electrorheological fluid-assisted polishing[J]. Advanced Materials Research, 2012, 503-504(4): 119-122.
[5] [5] LU J B, YAN Q SH, TIAN H, et al.. Polishing properties of tiny grinding wheel based on Fe3O4 electrorheological fluid[J]. Journal of Materials Processing Technology, 2009, 209(11): 4954-4957.
[6] [6] LU J B, YAN Q SH, YU J, et al.. Parametric study of micro machining with instantaneous tiny-grinding wheel based on the magnetorheological effect of abrasive slurry[J]. International Journal of Materials & Product Technology, 2008, 31(1): 113-124.
[7] [7] WEI CH G. Electrorheological Technology-Theroy Material Engineering Applications[M]. Beijing: Beijing Institute of Technology Press, 2000. (in Chinese)
[8] [8] KOYAMA K, MINAGAWA K, WATANABE T, et al.. Electro-magneto-rheological effects in parallel-field and crossed-field systems[J]. Journal of Non-Newtonian Fluid Mechanics, 1995, 58(2-3): 195-206.
[9] [9] TIAN H, YAN Q SH, LU J B, et al.. Foundational study on micro machining with instantaneous tiny-grinding wheel based on electro-magneto-rheological effect[C]. In: SPIE2007 Proc 3rd International Symposium on Advanced Optical Manufacturing and Testing Technologies, Chengdu, China, July 08-12, 2007, 6724: 7240-7248.
[10] [10] LIU Y, YAN Q SH, LU J B, et al.. Micro machining of three-dimensional microstructure with the tiny-grinding wheel based on the electro-magneto-rheological effect[J]. Key Engineering Materials, 2009, 407-408: 363-367.
[11] [11] LIU Y, YAN Q SH, LU J B, et al.. Effect of tool cone angle on micro machining based on the EMR effect[J]. Key Engineering Materials, 2010, 447-448: 198-202.
[12] [12] LU J B, YAN Q SH, TIAN H, et al.. Effect of abrasive on the machining performance of the EMR-effect-based tiny-grinding wheel[J]. Advanced Materials Research, 2010, 135: 24-29.
[13] [13] LU J B, YAN Q SH, TIAN H, et al.. Synergistic effect of electro-magnetically coupled field in polishing with the EMR effect-based tiny-grinding wheel[J]. Mocaxue Xuebao/Tribology, 2010, 30(2): 190-196. (in Chinese)
[14] [14] ZHANG F H, YU X B, ZHANG Y. Analysis of tangential position error or removal function error in ultrasonic-magnetorheological combined finishing[J]. Key Engineering Materials, 2012, 516: 390-395.
[15] [15] YIN SH H, SHINMURA T. A comparative study: polishing characteristics and its mechanisms of three vibration modes in vibration-assisted magnetic abrasive polishing[J]. International Journal of Machine Tools & Manufacture, 2004, 44(4): 383-390.
Tools
Get Citation
Copy Citation Text
LU Jia-bin, YAN Qiu-sheng, PAN Ji-sheng, GAO Wei-qiang. Experiments of synergistic effect of electro-magnetically coupled field in EMR finishing[J]. Optics and Precision Engineering, 2012, 20(11): 2485
Paper Information
Category:
Received: Jul. 14, 2012
Accepted: --
Published Online: Nov. 28, 2012
The Author Email: Jia-bin LU (lujiabin@gdut.edu.cn)
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20