论文信息 - Improvement of Corrosion Resistance in Metallic Biomaterials using a New Electrical Grinding Technique

Improvement of Corrosion Resistance in Metallic Biomaterials using a New Electrical Grinding Technique

Abstract A new electrical grinding method for the fabrication of machined surfaces with desirable characteristics for biomaterials and other engineering applications is presented. Conventional biomaterials, such as stainless steel and titanium alloy, require enhanced chemical stability and wear resistance, which are dependent on the quality of the surface oxide layer. However, it is difficult to produce sufficiently homogenous oxide layers by alumina polish finishing alone. The electrical grinding method proposed in this study, in which electric current is applied to the grinding fluid in the machining process, improves oxide formation on the finished surfaces, thereby realizing finished surfaces with extremely thick and stable oxide layers. Compared with alumina polishing, electrical grinding yields machined surfaces having excellent corrosion resistance.

[1] Ekkard Brinksmeier,et al. Generation of Reaction Layers on Machined Surfaces , 2000 .

[2] H. Ohmori,et al. Evaluation of surface characteristics of ground CVD-SiC using cast iron bond diamond wheels , 2001 .

[3] Naotake Mohri,et al. Effect of Surface Oxidation on Micromachinability of Monocrystalline Silicon , 2001 .

[4] P J Gregson,et al. Effect of surface treatment on the dissolution of titanium-based implant materials. , 1991, Biomaterials.

[5] G. Winter,et al. Evaluation of biomaterials , 1980 .

[6] T. Nakagawa,et al. Analysis of mirror surface generation of hard and brittle materials by ELID (electronic in-process dressing) grinding with superfine grain metallic bond wheels , 1995 .

[7] T. Nakagawa,et al. Utilization of Nonlinear Conditions in Precision Grinding with ELID (Electrolytic In-Process Dressing) for Fabrication of Hard Material Components , 1997 .

[8] M. Stern,et al. Electrochemical Polarization I . A Theoretical Analysis of the Shape of Polarization Curves , 1957 .