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Research Progress of On-Line Measurement and Compensation Technology about Grinding Wheel Wear
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 565Research Progress of On-Line Measurement and...

Research Progress of On-Line Measurement and Compensation Technology about Grinding Wheel Wear

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Abstract:

According to the characteristics of grinding wheel wear in the grinding process, the grinding wheel wear forms and their reasons are analyzed. At the same time, as the grinding wheel wear will affect the size of components, the procedures of on-line measurement and compensation technology about grinding wheel wear are summarized. The current domestic and international research status of on-line measurement and compensation methods about grinding wheel wear are introduced, such as position calibration based method, machine vision based method, laser displacement based method, acoustic emission based method, grinding force based method, cutting vibration based method, grinding acceleration based method and pressure based method. Finally, the current research difficulties of grinding wheel wear’s on-line measurement and compensation technology are analyzed, and the further research direction is made.

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Advances in Abrasive Technology XV

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Periodical:

Advanced Materials Research (Volume 565)

Pages:

190-195

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.565.190

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Online since:

September 2012

Authors:

Wei Liu, Zhao Hui Deng, Lin Lin Wan, Hao Tang

Keywords:

On-Line Measurement, Compensation, Grinding, Wheel Wear

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© 2012 Trans Tech Publications Ltd. All Rights Reserved

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[1] B.M. Li, B. Zhao: Modern Grinding Technology (Mechanical Industry Press, Beijing 2003) (in Chinese).

[2] A. Warkentin, R. Bauer: Transactions of CSME Vol. 27 (2003), p.193.

[3] Y.H. Zeng, C.W. Bo: Machinery Vol. 42 (2004), p.54 (in Chinese).

[4] W.F. Liu: Modern Manufacturing Engineering No. 3 (2003), p.69 (in Chinese).

[5] N. Arunachalam, B. Ramamoorthy: Proc. Instn Mech. Engrs Vol. 221 (2007), p.419.

[6] T.L. Gu, H.L. Wang, D.J. Hu, et al: Mechanical Science and Technology for Aerospace Engineering Vol. 26 (2007), p.1147 (in Chinese).

[7] D.J. Hu, H. Wang: China Mechanical Engineering Vol. 19 (2008), p.2180 (in Chinese).

[8] Y.H. Zhang, H.Q. Tang and D.J. Hu: Key Engineering Materials Vol. 291-292 (2005), p.81.

[9] Y.H. Zhang, Q. Wu and D.J. Hu: Int. J. Adv. Manuf. Technol Vol. 35 (2008), p.994.

[10] K.C. Fan, M.Z. Lee and J.I. Mou: Int. J. Adv. Manuf. Technol Vol. 19 (2002), p.14.

[11] S. LaChance, A. Warkentin and R. Bauer: Journal of Manufacturing Systems Vol. 22 (2003), p.130.

[12] J.C. Su, Y.S. Tarng: Int. J. Adv. Manuf. Technol Vol. 31 (2006), p.50.

[13] Y.M. Luo, D.J. Hu: Key Engineering Materials Vol. 359-360 (2008), p.479.

[14] H.S. Lee, T. Yamada and N. Ishida: Key Engineering Materials Vol. 389-390 (2009), p.108.

[15] X.J. Wu, M.J. Ren and H.L. Li: Precise Manufacturing & Automation No. 3 (2006), p.13 (in Chinese).

[16] Q. Wang, G. J Liu and W.S. Wang: China Mechanical Engineering Vol. 20 (2009), p.285 (in Chinese).

[17] A. Hassui, A.E. Diniz, J.F. G Oliveira, et al: Wear Vol. 217 (1998), p.7.

[18] B. Zhao, B.Y. Du and W.D. Liu: Key Engineering Materials Vol. 392-394 (2009), p.714.

[19] I. Biswas, A.S. Kumar and M. Rahman: Int. J. Adv. Manuf. Technol Vol. 50 (2010), p.931.

[20] K.F. Huang, L.M. Xu, H. Fan, et al: Chinese Journal of Scientific Instrument Vol. 26 (2005), p.632 (in Chinese).

[21] Y.H. Zhang, Q. Wu and D.J. Hu: Advanced Materials Research Vol. 24-25 (2007), p.283.

[22] K. Furutani, N.T. Hieu, N. Ohguro, et al: Precision Engineering Vol. 27 (2003), p.9.

[23] K. Furutani, N.T. Hieu, N. Ohguro, et al: Proc. Instn Mech. Engrs Vol. 217 (2003), p.153.