Tribology of metal evaporated tapes - for improvement of recording density

Increased recording density in video tape recorders and tape drives for dat a storage has been achieved by the increase in areal recording density and the decrease in tape thickness. Areal recording density can be increased by introducing high performance tapes, like metal evaporated tapes, with supe rior magnetic characteristics and smooth magnetic surfaces to reduce the sp acing loss. However smoother surfaces often produce a higher friction coeff icient, which could result in tape damage by the scanning heads and unstabl e runnability of tapes in VTRs or tape drives. Also thinner tapes show lowe r mechanical stiffness in general, which could result in damage of the tape edges during tape transportation. Superior durability and runnability are thus required of high performance tape in addition to magnetic characterist ics, in spite of the trend towards smoother surface and thinner tapes. Ther efore the development of practical new magnetic tapes requires research int o their tribology. It was found that the durability and runnability of meta l evaporated tapes with smoother surfaces can be improved by DLC coating, a nd that the edge damage of thinner tapes can be eliminated by decreasing th e static friction coefficient, but not the kinetic one. Though the durabili ty and the runnability of metal evaporated tapes themselves have been impro ved from the tape design point of view, as mentioned above, further improve ment may be expected by integrating tape design with that of the VTR/tribo- elements tape drive design and thus further increasing recording density in the future. (C) 1999 Elsevier Science Ltd. All rights reserved.