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TECHNICAL PAPERS

Hydrodynamic Fluid Pressure in Grinding Zone During Grinding With Metal-Bonded Diamond Wheels

[+] Author and Article Information
Bo Zhang, Akira Nakajima

Faculty of Science and Engineering, Saga University, 1 Honjo-machi, Saga-shi 840-8502, Saga, Japan

J. Tribol 122(3), 603-608 (Aug 19, 1999) (6 pages) doi:10.1115/1.555408 History: Received January 02, 1998; Revised August 19, 1999
Copyright © 2000 by ASME
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References

Figures

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Numerical results on the effect of the ratio of D/B on the hydrodynamic force
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Numerical results for the dependence of hydrodynamic force on the minimum film thickness
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Schematic diagram of measuring device for hydrodynamic pressure distribution
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Effect of supply rate of grinding fluid on hydrodynamic force
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Experimental result on the dependence of hydrodynamic force on the viscosity of grinding fluid
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Relationship between hydrodynamic force and wheel speed
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Relationship between hydrodynamic force and work speed
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Variation of ratio 1 with clearance for both SD4000 and SD140 wheels
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Measured hydrodynamic pressure distributions p(x,0) during grinding with SD4000 at different depths of cut
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Changes in hydrodynamic force, actual grinding force and normal grinding force during grinding with SD4000 wheel with depth of cut
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Changes in hydrodynamic force, actual grinding force and normal grinding force during grinding with SD140 wheel with depth of cut
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Change in film shape due to depth of cut

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