Abstract
An integrated slider-suspension system is designed and prototyped. This structure has full flying air-bearing surface in the leading part with contamination resistant feature, and it accommodates slider with 5〜15 nm head-disk spacing at the trailing part. Performance analysis and simulation were conducted to validate the design. The slider vibration had been studied systematically. It was found that the natural frequencies of slider motion are dependent on the disk contact stiffness, and slider vibrations exhibit varies of resonance under excitations. Finally, the random interaction of the interface was investigated, and the average response of slider body was derived.