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TECHNICAL BRIEF

Detection of Wheel and Workpiece Contact/Release in Reciprocating Surface Grinding

[+] Author and Article Information
H. Ali Razavi, Thomas R. Kurfess

G. W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA 30332

J. Manuf. Sci. Eng 125(2), 394-395 (Apr 15, 2003) (2 pages) doi:10.1115/1.1559160 History: Received April 01, 2001; Revised March 01, 2002; Online April 15, 2003
Copyright © 2003 by ASME
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References

Razavi, H. A., 2000, “Identification and Control of Grinding Processes for Intermetallic Compounds,” Doctoral Dissertation, Georgia Institute of Technology.
Razavi,  H. A., and Kurfess,  T. R., 2001, “Force Control of a Reciprocating Surface Grinder Using Unfalsification and Learning Concept,” International Journal of Adaptive Control and Signal Processing, 15(5), pp. 503–518, August.
Thomas,  D. A., Allanson,  D. R., Moruzzi,  J. L., and Rowe,  W. B., 1995, “In-process Identification of System Time Constant for the Adaptive Control of Grinding,” ASME J. Eng. Ind., 117(2), May, pp. 194–201.

Figures

Grahic Jump Location
The dynamic stiffness is measured by exciting the spindle axis perpendicular to the spindle axis and the table axis
Grahic Jump Location
Grinding mode: up-cut; depth of cut: 5 μm; wheel peripheral speed: 32 m/sec
Grahic Jump Location
Grinding mode: up-cut; depth of cut: 30 μm; wheel peripheral speed: 28 m/sec
Grahic Jump Location
Grinding mode: up-cut; depth of cut: 25 μm; wheel peripheral speed: 32 m/sec
Grahic Jump Location
Grinding mode: down-cut; depth of cut: 50 μm; wheel peripheral speed: 19 m/sec

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