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Lateral force microscopy — a quantitative approachWear, 213
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JOURNAL OF MATERIALS SCIENCE LETTERS 19, 2000, 1979 – 1981 Lubricious zinc oxide films grown by pulsed laser deposition: Lateral force microscopy of wear surfaces S. V. PRASAD Sandia National Laboratories, MS 1407, P.O. Box 5800, Albuquerque, NM 87185-1407, USA E-mail: svprasa@sandia.gov J. J. NAINAPARAMPIL Systran Federal Corp., Dayton, OH 45432, USA J. S. ZABINSKI Air Force Research Laboratory (AFRL/MLBT), Wright Patterson Air Force Base, OH 45433-7750, USA It is well recognized that the properties of wear surfaces, structure generates a subsurface underneath the wear notably their chemistry and microstructure, can differ scar that has a true nanocrystalline structure with ran- significantly from those of the bulk. Friction between domly oriented grains [8], as depicted schematically sliding surfaces often induces microstructural changes in Fig. 2. The sub-surface with a randomly oriented in sub-surface regions [1, 2]. In addition, transfer and nanocrystalline grain structure can deform plastically, back transfer of material between contacting surfaces as proposed by Gleiter and co-workers [9], and prevent can occur; chemical reactions among the sliding sur- catastrophic brittle failure. Second, the nanocrystalline faces and the environment also are feasible [3]. Wear grains should be prone to re-orientation during slid- surface analysis is therefore a challenging
Journal of Materials Science Letters – Springer Journals
Published: Oct 6, 2004
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