Abstract
Three-body abrasion is the cause of differential wear in magnetic tape heads resulting in recession of the magnetic poles with respect to the head substrate; this is called pole tip recession (PTR). The increasing head--tape spacing caused by PTR results in a lower write density, so the recession must be minimized. The three-body particles that may interact with the head--tape interface can originate from the operating environment (contaminant particles) and from the interface itself (debris particles). The effect of airborne particulate contaminants trapped at the head--tape interface (particle concentration, size, and hardness), which results in three-body abrasion, on PTR growth is studied experimentally. PTR increases with increases in any of the following: particle concentration, size, and hardness. Analytical modeling supports the experimental results. Possible mechanisms responsible for the observed behavior are discussed.
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