Effect of subgrain and the associated DRX behaviour on the texture modification of Mg-6.63Zn-0.56Zr alloy during hot tensile deformation

The individual effect of DRXed grains, subgrains and deformed grains on the basal texture of Mg-Zn-Zr alloy during hot tensile deformation was systematically studied by extracting corresponding grains. The results show that the final texture was the result of compromise between the randomized texture of DRXed grains and preferred texture of subgrains and deformed grains. The texture attribute of subgrain did not change fundamentally compared with that of deformed grain, both of which dominated the final texture profile. Prismatic dislocations exerted a profound effect on the compatible deformation of unDRXed grains, giving rise to a sharp [10 (1) over bar0] fiber. Few basal dislocations could be detected in the unDRXed grains due to the premature exhaustion of such slip operation and subsequent substitution by non-basal slips. Subgrains, in terms of DDRX, were caused by the interaction between basal and non-basal dislocations, resulting in the protrusions segmented by the subgrain boundaries (sub-GBs) whose misorientation increased gradually as trapping dislocation proceeded. As a result, these protrusions were segregated from the parent grains and transformed into DRXed grains. CDRX proceeded by high activity of profuse dislocations. In this case, sub-GBs came from the realignment and incorporation of the accumulated dislocations in the vicinity of dislocation forest, which subdivided one grain into several subgrains that could be converted into DRXed grains in situ via the transformation from LAGBs to HAGBs by consecutively absorbing dislocations. Besides, twinning deformation was an auxiliary way of compatible deformation, which could reorientate parent grains so as to reactivate the slip systems. The contribution of resulting {10 (1) over bar2} twins to the final texture was not significant yet. Ultimately, the selection of {10 (1) over bar2} twin variants was also discussed.

Automated summary

The study found that the influence of DRXed grains, subgrains and deformed grains on the basal texture of Mg-Zn-Zr alloy during hot tensile deformation is determined by a compromise between the randomized texture of DRXed grains and the preferred texture of subgrains and deformed grains.