Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
7952180 | Journal of Materials Science & Technology | 2017 | 18 Pages |
Abstract
A series of silver-doped graphite-like carbon coatings was prepared on the surface of aluminum alloy using the magnetron sputtering method. The spontaneous escape behavior and inhibition mechanism of silver from graphite-like carbon coating were studied. The results showed that when the sample prepared with a 0.01-A current on the silver target was placed in an atmospheric environment for 0.5 h, an apparent silver escape phenomenon could be observed. However, the silver escape phenomenon was not observed for samples prepared with a 0.05-A current on the silver target if the sample was retained in a 10â1 Pa vacuum environment, even after 48 h. Compared with the sample placed in the atmospheric environment immediately after an ion plating process, the silver escape time lagged for 6 h. Nanometer-thick pure carbon coating coverage could effectively suppress silver escape. When the coating thickness reached 700 nm, permanent retention of silver could be achieved in the silver-doped graphite-like carbon coating. As the silver residue content in the graphite-like carbon coating increased from 2.27 at.% to 5.35 at.%, the interfacial contact resistance of the coating decreased from 51 mΩ cm2 to 6 mΩ cm2.
Related Topics
Physical Sciences and Engineering
Materials Science
Materials Chemistry
Authors
Wenting Shao, Xinyu Zhang, Bailing Jiang, Cancan Liu, Hongtao Li,