Abstract
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The crystal plasticity finite element (CPFE) model was used to simulate the textural evolution in a FCC aluminum single crystal of the {1 1 2}〈1 1 1〉 (Cu) orientation processed by accumulative roll-bonding. The simulation was conducted up to nine cycles, and the predictions have been validated by the corresponding experimental observations. The dynamic balance between the destroyed and formed texture components (0 0 1)[1 1 0] and (4411)[11118¯], as representatives of shear-type texture and rolling-type texture, respectively, made their area fractions stable. Different deformation behaviors in the destroyed, formed, and preserved texture components (0 0 1)[1 1 0] and (4411)[11118¯] were found and investigated.