Effects of O2 Fine Bubbles on ELID Grinding Using Conductive Rubber Bond Grinding Wheel

Author:

Inazawa Katsufumi,Ohmori Hitoshi,Itoh Nobuhide, ,

Abstract

This study proposes a new grinding system using grinding fluid containing oxygenic fine bubbles (O2FBs) to realize high-performance electrolytic in-process dressing (ELID) using a conductive rubber bond grinding wheel. It was found that grinding fluid containing O2FBs dramatically increases the dissolved oxygen in the grinding fluid. In addition, the O2FBs in the fluid are drawn to the conductive rubber bond grinding wheel, which is the positive pole, during ELID. These effects are thought to enhance the dressing performance of the conductive rubber bond grinding wheel. Grinding of pure titanium using the proposed grinding system was found to realize mirror surface finishing while increasing the amount of removed workpiece material, compared to when ELID was not applied and to when ELID grinding was conducted using a normal grinding fluid. Effects of ELID grinding on surface modification were also observed, confirming that the proposed grinding system is able to form a thick oxidized film on pure titanium.

Publisher

Fuji Technology Press Ltd.

Subject

Industrial and Manufacturing Engineering,Mechanical Engineering

Reference22 articles.

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3. T. Shimizu, K. Tagawa, K. Kyo, T. Deguchi, and H. Ohmori, “Characteristics of Mirror Surface Grinding of Dental Ti-Ni Alloy Using ELID (Electrolytic In-Process Dressing) Grinding,” J. of Japanese Society of Oral Implantology, Vol.15, No.2, pp. 199-206, 2002 (in Japanese).

4. A. Okada et al., “A New Surface Finishing Process for Bio-Titanium Alloy Products by Wide-Area Electron Beam Irradiation,” J. of the Japan Society of Electrical Machining Engineers, Vol.38, No.89, pp. 27-34, 2004 (in Japanese).

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