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HomeKey Engineering MaterialsKey Engineering Materials Vol. 499Review of Quick-Point Grinding Technology

Review of Quick-Point Grinding Technology

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Abstract:

Quick-point grinding technology, suitable to be applied in automobile manufacturing, cemented carbide and ceramic material processing industry, was an advanced ultra-high-speed grinding technology. It is the integration of super-high speed grinding, CBN super-abrasive and CNC flexible manufacturing and so on. The characteristics of quick-point grinding were systematically illustrated. Applications of this technology to process hard-machining materials and shaft parts were also given in this paper. Some problems and solutions corresponding to quick-point grinding technology were presented finally.

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Periodical:

Key Engineering Materials (Volume 499)

Pages:

295-300

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.499.295

Citation:

Cite this paper

Online since:

January 2012

Authors:

X.W. Wang, Pei Quan Guo, Hao Dong Zhao, Y.K. Cao

Keywords:

Green Process, Hard-Machining Material, Quick-Point Grinding, Ultra-High-Speed Grinding

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Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

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[1] G. Q. Cai and S. C. Xiu: Products and Technology. Vol. 3(2007), P.95(In Chinese)

[2] Z. R. Pang, X. L. Liu, T. Lu: Diamond and Abrasives Eng. Vol. 4(2009), P.77 (In Chinese)

[3] S. C. Xiu, G. Q. Cai, Y. D. Gong: Diamond and Abrasives Eng. Vol. 2(2005),P.34(In Chinese)

[4] J. Qiu, Y. D. Gong, Y. M. Liu: China Mechanical Eng. Vol. 20(2009), P.2922(In Chinese)

[5] N. Funayama and J. Matsuda: New Diamond and Frontier Carbon Tech. Vol. 15(2005), P.173

[6] X. J. Xu: Shandong Ceramics. Vol. 29(2005), P.33(In Chinese)

[7] S. C. Xiu, G. Q. Cai, Y. D. Gong: Products and Technology. Vol. 5(2008), P.88(In Chinese)

[8] J. B. Wang, J. Y. Wang, L. B. Wang: Technology and Test . Vol. 7(2008), P.100(In Chinese)

[9] L. Dong, J. F. Li, F. Y. Li and et al: Tool Engineering. Vol. 39(2005), P.3 (In Chinese)

[10] Z. X. Huang, C. H. Li and G. Q, Cai: Automobile Technology and Material. Vol. 5(2007), P.47 (In Chinese)

[11] J. F. Gomes de Oliveira and D. A. Dornfeld: CIRP Annals-Manuf. Tech. Vol.50 (2001), P.219

[12] J. D. Hu, F. L. Han, W. Peng: J. of Zhejiang University. Vol. 28(2000), P.207(In Chinese)

[13] C. H. Li, G. Y. Meng and G. Q. Cai: Journal of Qingdao Technological University. Vol. 28(2007), P.8(In Chinese)

[14] J. George and G. Peter: Journal of Materials Science. Vol. 20(1985), P.3153

[15] P. N. Blackey and R. O. Scattergood: J. of the American Ceramic Society. Vol. 73(2007), P.9 P.955

[16] C. Q. Lu: The Research on Mechanism of Ultra-speed Grinding(Dong Hua University 2007).(In Chinese)

[17] G. L. Song and G. Q. Cai: New Technology and New Progress Vol.7 (2000), P.12(In Chinese)

[18] A. J. Shih, S. B. McSpadden, T. O. Morris: Machining Science and Tech. Vol. 41 (2000), P.50

[19] K. Ramesh, S. H. Yeo, S. Gowri: Advanced Manufacturing Tech. Vol. 17 (2001), P.88

[20] Y. Wu: Research on High Speed Grinding Wheel Continue Dressing Method and its Equipment (Hu Nan University 2003) (In Chinese)

[21] L. Guo, X. M. Sheng, W. Z. Li: Precise Manuf. and Automation. Vol. 2(2010), P.8(In Chinese)

[22] S. H. Gong, Key Technologies of the Control System of Camshafts Grinding Process with High Speed (Huazhong University of Science and Technology 2008). (In Chinese)

[23] J. J. Wang and B. Yao: Diamond and Abrasives Engineering. Vol. 5(2002), P.49(In Chinese)

[24] H. G. Qian: World Manufacturing Engineering and Market. Vol. 4 (2001), P25(In Chinese)

[25] Y. D. Gong, Y. M. Liu, Y. C. Han: Superhard Material Eng. Vol. 22(2010), P.40 (In Chinese)

[26] J. Y. Chen, H. Huang, H. Guo: Superhard Material Eng. Vol. 20(2008), P.44(In Chinese)

[27] S. C. Xiu, C. H. Li, Z. R. Pang and et al: Journal of Northeastern University. Vol. 28(2007), P394(In Chinese)

[28] Z. X. Huang and C. H. Li: Modern Components. Vol. 5(2007), P.72(In Chinese)

[29] S. Q. Wang: The Research on the Application of Electrolytic In-process Dressing Technology in High Speed Grinding of Advanced Ceramics (Hunan University 2006). (In Chinese)

[30] P. Wang: The Design and Manufacture of the Online Dynamic Balance System for the Grinding Wheel(Shen Yang Li gong University 2008). (In Chinese)