A two-dimensional cellular automaton method was used to simulate grain growth during the recrystallization annealing of deep-drawing sheet Stl5, taking the simulated result of recrystallization and the experimental result of the annealing texture of deep- drawing sheet St15 as the initial condition and reference. By means of computer simulation, the microstructures and textures of dif- ferent periods of grain growth were predicted. It is achieved that the grain size, shape and texture become stable after the grain growth at a constant temperature of 700°C for 10 h, and the advantaged texture components {111 }<110> and {111 }<112> are domi- nant. A two-dimensional cellular automaton method was used to simulate grain growth during the recrystallization annealing of deep-drawing sheet St15, taking the simulated result of recrystallization and the experimental result of the annealing texture of deep- drawing sheet St15 as the initial condition and reference . By means of computer simulation, the microstructures and textures of dif- ferent periods of grain growth were predicted. It is achieved that the grain size, shape and texture become stable after the grain growth at a constant temperature of 700 ° C for 10 h , and the advantaged texture components {111} <110> and {111} <112> are domi- nant.