AI Article Synopsis
- * Results showed that lower duty cycles improved roughness metrics significantly, with areal roughness improving from 0.348 to 0.195 µm and surface roughness from 0.779 to 0.245 µm.
- * The findings suggest that grain size increases with duty cycle changes, affecting hardness, where higher duty cycles led to larger grain sizes and decreased nanohardness from 4.21 to 3.07 GPa, indicating potential for improved coatings in industrial applications.
Article Abstract
In this study, the viability of duty cycle variation was explored as a potential method to improve the mechanical and surface roughness properties of Ni-AlO nanocoatings through pulse electrodeposition. The areal and surface roughness properties of nanocomposite pulse electrodeposition-coated materials with varying duty cycles from 20% to 100% was studied with the analysis of bearing area curves and power spectral densities. Results demonstrate that with decrease in duty cycle, there was an enhancement in aerial roughness properties from 0.348 to 0.195 µm and surface roughness properties from 0.779 to 0.245 µm. The change in surface roughness was due to grain size variation, resulting from the varying time intervals during pulse coatings. This increase in grain size with the change in duty cycle was confirmed with the scanning electron microscope. In addition, an increase in grain size from 0.32 to 0.92 µm with an increase in duty cycle resulted in a decrease in nanohardness from 4.21 to 3.07 GPa. This work will provide a novel method for obtaining Ni-AlO nanocomposite coatings with improved surface roughness and hardness properties for wider industrial applications.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10052193 | PMC |
| http://dx.doi.org/10.3390/ma16062192 | DOI Listing |
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