期刊
MATERIALS RESEARCH EXPRESS
卷 9, 期 2, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/2053-1591/ac5275
关键词
coprecipitation; electrodeposition; cobalt; chromium; nanocrystal; microhardness
资金
- Japan Society for the Promotion of Science [JSPS: 18H01754, 20J21925]
- Grants-in-Aid for Scientific Research [20J21925] Funding Source: KAKEN
This study investigated the effect of glycine as a complexing agent on the formation of metal hydroxides and synthesized Co-Cr alloy-based composite films containing Cr2O3. The composite films exhibited an amorphous-like nanocrystalline structure, with reduced crystal grain size and decreased saturation magnetization. However, the microhardness of the composite films significantly improved.
The effect of glycine as a complexing agent on metal hydroxide formation, such as Co(OH)(2) and Cr(OH)(3), was investigated based on potential-pH diagrams and titration curves for Co2+-H2O and Cr3+-H2O systems. Using a potentiostatic electrodeposition technique, Co-Cr alloy-based composite films containing Cr2O3 were synthesized from a non-suspended aqueous solution within an optimized pH range. Chromium content in the composite films was controlled up to 38.9% by adjusting the cathode potential during the alloy electrodeposition. Based on the XRD profiles and electron diffraction patterns, an amorphous-like nanocrystalline structure was observed in the composite films with high chromium content. The average crystal grain size declined due to Cr2O3 particles and hydrogen evolution during the electrodeposition process. Saturation magnetization of the composite films decreased with an increase in the chromium content. Synergistic contribution of increasing dislocation density and refining crystal grain size improved the microhardness of the composite films. The microhardness reached 624.2 kgf mm(-2) and greatly exceeded that of pure cobalt (ca. 250-300 kgf mm(-2)).
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