Title :
Microcomposite ceramics modeling
Author :
Vereschagin, V.I. ; Sergeyev, M.A. ; Borodin, Y.V.
Author_Institution :
Tomsk Polytech. Univ., Russia
Abstract :
Computer modeling of microcomposite ceramic grain structure was carried out taking into account the correlative fields of C-particles, and the principles of high packing and self-similarity. The behavior of the spirally organized microcomposite ceramic structure model is in accordance with studies of polytypes, nano- and other mesoscopic particles. It was shown that in grains there is microplasticity within the 2D electron lattice due to the high mobility of self-organised mesoscopic particle blocks. Therefore a high level of size quantization and microplasticity intergrain structure is reached under low temperatures
Keywords :
ceramics; composite materials; crystal microstructure; deformation; plasticity; 2D electron lattice; computer modeling; grain structure; microcomposite ceramics; microplasticity; self-organised mesoscopic particle blocks; self-similarity; size quantization; Ceramics industry; Composite materials; Crystallization; Filling; Lattices; Nanocomposites; Nanoparticles; Quantization; Spirals; Temperature;
Conference_Titel :
Science and Technology, 1999. KORUS '99. Proceedings. The Third Russian-Korean International Symposium on
Conference_Location :
Novosibirsk
Print_ISBN :
0-7803-5729-9
DOI :
10.1109/KORUS.1999.876239
