Abstract:According to experimental data of 7050 aluminum alloy in single-pass hot compression, the relevant parameters of cellular automaton (CA) model for microcrack healing were identified and calculated. Using Microsoft Visual C++ platform, the CA rules of microstructural evolution of intergranular microcrack during thermoplastic healing include topological deformation mechanism, the dislocation density evolution mechanisms and dynamic recrystallization kinetics mechanism were programmed. For the different characteristics of crack surface and grain boundary, the crack surface energy and grain boundary energy drive the growth of grain in different ways and the mechanism was proposed in the recrystallization process. The CA simulation results show that the hot thermoplastic deformation and dynamic recrystallization can repair microcracks completely under certain conditions, and the piecewise healing characteristics during crack healing process have a good agreement with the experimental results, but the appearance of crack healing depends on the crack morphology, crack nucleation rate and nucleation site, the growth direction and speed of new grain.

Key words: 7050 aluminium alloy; microcrack; thermoplastic repairing; dynamic recrystallization; cellular automaton