Fig. 6 Long-term THW test and wear analysis.

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Presentation transcript:

Fig. 6 Long-term THW test and wear analysis. Long-term THW test and wear analysis. (A) Schematic of the THW test setup used in the present work comprising tape supply/take-up reel components, tape guides, and the tape head to be tested, which was kept in contact with the sliding tape media at a constant tension. This simulates the operation of actual TDs. Since most of the previous thicker (~20 to 100 nm) overcoats could survive up to a maximum of 1.7 to 5 Mm of tape sliding in the THW test, we performed THW tests up to a tape sliding distance of 5 Mm to analyze the wear of our ~7- to 8-nm overcoats. (B) Optical microscope images of selected tape heads after THW tests. The brighter and darker portions indicate the presence and removal of overcoats, respectively. Although sample G demonstrated good wear resistance, it yielded very severe wear near the AlTiC substrate/closure edges adjacent to the Al2O3 gap region and inside the gap. In contrast, the wear was found to be minimal in samples E and M, suggesting higher wear resistance. (C) AES images to assess wear based on elemental mapping of C, O, Si, and Al. Before AES imaging, SEM images were recorded. The wear was evaluated on the basis of the intensities of C (from the overcoat) and Al/O (from the substrate), where a warmer/brighter color represents higher intensities and cooler/darker color represents lower intensities, according to the color scale bar. The C/SiNx overcoat in sample M demonstrated the best wear resistance. Neeraj Dwivedi et al. Sci Adv 2019;5:eaau7886 Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).