Abstract
Precipitation and classical recrystallization models were used to simulate and design cold rolling and annealing processes. The simulations were compared with experimental results for copper alloys. The simulations are based on the classical recystallization theory and the precipitation theory proposed by Langer and Schwartz. The precipitate distribution density, the average precipitate size, the degree of precipitation, and the recrystallized fraction in the matrix can be calculated. A comparison between the calculations and the measurements on a Cu-Cr-Sn alloy revealed that both exhibited similar trends during annealing. Slight differences occurred, especially in the recrystallized fraction.
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