Title :
Perpendicular magnetic flexible disc by anodic oxidation
Author :
Tsuya, N. ; Tokushima, T. ; Shiraki, M. ; Umehara, Y. ; Saito, Y. ; Nakamura, H. ; Harada, Y.
Author_Institution :
Coll. of Eng., Hosei Univ., Tokyo, Japan
fDate :
3/1/1988 12:00:00 AM
Abstract :
Flexible alumite discs were prepared and their recording characteristics and wear resistance is reported. To study the surface roughness of alumite film, single-crystal Al platelets with different crystallographic orientations were prepared and anodic oxidized. The surface smoothness of these anodized films was better in the order [111]>[110]>[100]. For a flexible-disc substrate, >99.999%-pure Al was sputtered onto 50- mu m-thick PET film at a substrate temperature of 80 degrees C. The sputtered film was oriented favorably with [111]. After Fe was electrodeposited in the pores of 2- mu m-thick anodized Al film, it was polished to a thickness of 1 mu m. To test wear durability, the surface of the alumite layer was slightly etched and applied with liquid lubricant. A recording density D50 of 60 kB/in. was obtained, together with a wear resistance of five million head passes.
Keywords :
alumina; iron; magnetic heads; magnetic thin films; surface structure; wear resistant coatings; Al; Al-Al2O3-Fe; PET film; alumite discs; anodic oxidation; electrodeposition; perpendicular magnetic flexible disc; recording density; sputtered film; surface roughness; wear resistance; Crystallography; Disk recording; Magnetic films; Oxidation; Perpendicular magnetic recording; Positron emission tomography; Rough surfaces; Substrates; Surface resistance; Surface roughness;
Journal_Title :
Magnetics, IEEE Transactions on
