Abstract
The formation of the structure of porous high-refractory ceramic material with grainy constitution is studied on the basis of model and experimental investigations. The idea that the structure of a ceramic material of rods as a material consisting of interpenetrating three-dimensional clusters comprised of oxide grains of various sizes, cemented by the ceramic binder, is developed. Using the basic assumptions of the theory of percolation, a model structure with cubic packing is investigated and a correlation is established between the structure-sensitive shrinkage phenomena of the ceramic rod materials and the fraction of sites belonging to the frame of an infinite cluster.
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