Technology Improvement and Parameter Optimization on the Electroplating Superhard Grinding Material


Article Preview

The superhard abrasive tools are usually made by the electroplating abrasive method. The electroplating quality has the directly effect on the life and the performance of the superhard abrasive tools. The electroplating technology is the major factor which influences the electroplating qualityy. The plating pretreatment and plating nickel processes in the basic electroplating technology were improved in this paper. The deburring, the oil removing by electrochemistry, the anode dispose procedures and a set of new electroplating technology about incoming slot with electronics and impact current in the plating nickel process were brought forward in this paper and the experiment research was taken as well. The result of the experiment which used the new technology showed that the binding power on the plating tier was enhanced, the electroplating quality was advanced; secondly, the effects of the parameters such as the directions for the electroplating solution, the current density, the temperature of the electroplating solution and PH values on the electroplating quality were studied in the experiment. Finally the optimization result was gained.



Key Engineering Materials (Volumes 359-360)

Edited by:

Jiuhua Xu, Xipeng Xu, Guangqi Cai and Renke Kang




Y. W. Wang et al., "Technology Improvement and Parameter Optimization on the Electroplating Superhard Grinding Material ", Key Engineering Materials, Vols. 359-360, pp. 559-563, 2008

Online since:

November 2007




[1] J.K. Denis, T.E. Sharky: The New Technology for Plating Nickel and Chrome (Beijing Scientific & Technical Publishers, China 1998). (In Chinese).

[2] Y. Chen: Modern Practical Electroplating Technology (National Defense Industry Press, China 2003). (In Chinese).

[3] Y.C. Sun: Diamond Tool and Basic Metallographic (Building Materials Industry Press, China 1999). (In Chinese).

[4] P.P. Yan: The Basic Research of the Single Coating Superhard Grinding Material Tool's Technology and Application (MS. Dissertation, Harbin University of Science and Technology, China 1996).

[5] H.S. Karayianni, G.S. Patermarkis and J.C. Papaioannou: Materials Letters, Vol. 53 (2002), pp.91-93.