Abstract
The paper presents the application of the Movable Cellular Automata (MCA) method for a simulation of 2D crack propagation in ceramic materials. The MCA method let us to simulate a movement of formation and cracks course for impossible to observe during an experiment. Ceramic sample was chosen to the research as an elastic-brittle material. During the study the simulation was done and the experiment was carried out with the same guidelines. The MCA model was correlated with experimental data. The simulation program generates data which allow to compute quantities such as an ultimate compressive strength and to show in the graphic form the moment of cracks initiation. Comparison of experimental and simulated results proves that Movable Cellular Automata method is suitable for modeling crack propagation in ceramic materials in two-dimensional system.
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