Misfit disclination dipoles in nanocrystalline films and coatings |
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Authors: | N. V. Skiba I. A. Ovid’ko A. G. Sheinerman |
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Affiliation: | (1) Chemical Engineering & Materials Science Department, University of California, One Shields Avenue, Davis, CA 95616, USA; |
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Abstract: | A theoretical model is proposed for describing the special physical micromechanism of misfit stress relaxation in nanocrystalline (NC) films and coatings. According to this model, under certain conditions, grain boundary sliding occurs in NC films and coatings, which is accompanied by the formation of an ensemble of disclination dipoles (rotational defects). These dipoles produce elastic stress fields, which partially compensate misfit stresses in NC films and coatings. Using the proposed model, it is shown that the nucleation of disclination dipoles in a film (coating) can significantly decrease the total energy of the film/substrate composite for the AlN/6H-SiC and GaN/6H-SiC systems over a wide range of structural parameter values. |
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