Development of texture during ARB in metal matrix composite

In the present study, the accumulative roll bonding (ARB) process was used as a technique for manufacturing aluminium-alumina composites. Textural evolution during the ARB process of composites was evaluated using X-ray diffraction. After the first ARB cycle, copper {112}< 111 > and brass {011}< 211 > were the major texture components. However, with the progress of deformation after 5 cycles, the components transformed completely, and the rotated cube {001}< 110 > component became dominant, which remained as the major component in higher cycles (ninth and thirteenth). This shear texture was developed due to the shear deformation induced by the high level of friction between the rolls and the strips. Generally, the intensity of all the texture components, except that of the rotated cube, was very weak. This result is attributed to the presence of second phase particles.