Water Contact Angle: Time Dependence and Lubricant Dynamics on Hard Disk Media

Abstract: The water contact angles of disks coated with Z-tetraol and A20H decreased gradually with time, starting from the initial value of approximately 105° and approaching a value below 100° in 20 seconds. The cause of temporal change was the interaction between the polar end groups of lubricant molecules and water molecules of the droplet. In the measurement environment, a part of the polar end groups was attracted to a polar droplet from the carbon surface. The contact angle consequently decreased. However, on the… Show more

“…The hydrogen bonding between hydroxyl units is week (5-8 Kcal/mol). The hydrogen bonding interaction between lubricant molecules and the DLC surface is thus constantly disrupted by thermal energy 4,6,7) . The higher spin-off rate observed at the hot-wet condition is attributed to displacement of lubricant end adhering to the carbon layer by hydrogen bonding by water molecule (See Fig.…”

Lubricant Spin-off and Oxidation Phenomenon on Hard Disk Media

“…The hydrogen bonding between hydroxyl units is week (5-8 Kcal/mol). The hydrogen bonding interaction between lubricant molecules and the DLC surface is thus constantly disrupted by thermal energy 4,6,7) . The higher spin-off rate observed at the hot-wet condition is attributed to displacement of lubricant end adhering to the carbon layer by hydrogen bonding by water molecule (See Fig.…”

Lubricant Spin-off and Oxidation Phenomenon on Hard Disk Media