Abstract
This study simulates the electric field of the supercritical electrodepositing system using Comsol software. The effects of the current density on the Ni2+ concentration distribution and the electrodepositing film growth on the cathodic surface are analyzed. The surface morphology and micro-hardness were discussed first. The results show that the electric field is uniformly distributed inside the minuteness groove. The average Ni2+ concentration on the cathodic surface decreases at first, but then increases with the proceeding electrodepositing process; the growth of the electrodepositing films is similar to the distribution of the cathodic current density. The grain size and organization of the Ni-diamond composite electrodepositing minuteness films under supercritical fluid are fine and compact. Moreover, the micro-hardness of the sample reaches 900.75 HV (200 g), a figure that is 70 % higher than that of traditional electrodepositing when the current density is 700 A/m2, the electrodepositing temperature is 323 K, the supercritical pressure is 12 MPa, and the nano-diamond particles content is 30 g/L. DOI: http://dx.doi.org/10.5755/j01.ms.24.2.17612
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