Experimental Research on Ultra-Smooth Surface Polishing Based on Two-Dimensional Vibration of Liquid

Zhong Ning Guo; X.Z. Huang; Zhi Gang Huang; Z.Q. Yu; T.M. Yue; Wing Bun Lee

doi:10.4028/www.scientific.net/KEM.329.219

Paper Titles

Investigation of Thermo-Chemical Polishing of CVD Diamond Film
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A Study of Basic Characteristics of Polishing Using Particle-Type Electro-Rheological Fluid
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Vibration-Assisted Magnetic Abrasive Polishing
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Development of a Resin-Coated Micro Polishing Tool by Plasma CVD Method -Electrorheological Fluid-Assisted Polishing of Tungsten Carbide Micro Aspherical Molding Dies-
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Experimental Research on Ultra-Smooth Surface Polishing Based on Two-Dimensional Vibration of Liquid
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An Experimental Study of the Polishing Process for MgO Single Crystal Substrate
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Design of Completely Inserted and Feeding Electrode for Female Screw in Electrochemical Finishing
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Development of Face Magnetic Inductor with Permanent Magnets for Deburring Using MAF Process
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Development of Effective Magnetic Deburring Method for a Drilled Hole on the Inside of Tubing Using a Magnetic Machining Jig
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 329Experimental Research on Ultra-Smooth Surface...

Experimental Research on Ultra-Smooth Surface Polishing Based on Two-Dimensional Vibration of Liquid

Abstract:

Experiment research of polishing based on liquid two-dimension vibration is carried out by a vibrating device which is driven by ultrasonic source and can produce coupling vibrations of liquid. Sound pressures of some key points in water are tested by hydrophone and translated into sound intensity to evaluate the effect of input voltage of transducer. It is analyzed which vibration state of fluid field and the way that workpiece is clamped is the best for the polishing. Polishing results of quartz glass are evaluated by the use of region-track measure method, and some polishing rules are presented.

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Periodical:

Key Engineering Materials (Volume 329)

Pages:

219-224

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.329.219

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Online since:

January 2007

Authors:

Zhong Ning Guo, X.Z. Huang, Zhi Gang Huang, Z.Q. Yu, T.M. Yue, Wing Bun Lee

Keywords:

Polishing, Sound Intensity, Ultra Smooth Surface, Ultrasonic Vibration

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References

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