Plastic deformation transfer through the amorphous intercrystallite phase in nanoceramics |
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Authors: | S V Bobylev M Yu Gutkin I A Ovid’ko |
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Institution: | (1) Institute of Problems of Mechanical Engineering, Russian Academy of Sciences, Vasil’evskiĭ Ostrov, Bol’shoĭpr. 61, St. Petersburg, 199178, Russia |
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Abstract: | A three-dimensional model is proposed for plastic deformation transfer through the amorphous intercrystallite phase in mechanically loaded nanoceramics. In this model, glide dislocation loops are pressed against amorphous intercrystallite boundaries by the applied local shear stress and initiate in them local longitudinal plastic shears, which causes emission of new glide dislocation loops into neighboring grains. The energy characteristics of these processes and the critical applied stress required for barrierless nucleation of grainboundary and intragrain loops are calculated. As an example, a nanoceramic based on cubic silicon carbide is considered. It is shown that plastic deformation transfer through the amorphous intercrystallite phase in such nanoceramics is energetically favorable and can occur athermically over wide ranges of values of the applied stress and the structural characteristics of the material. |
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