Abstract
The evolution of texture during the tensile deformation of Mg–3.1%Al–1.05%Zn was studied by microtexture and macrotexture techniques. The deformation texture is shown to be the direct consequence of the variant selection that occurs during primary (contraction) and secondary (extension) twinning. During subsequent annealing, the secondary twins have a higher rate of nucleation than the primary twins and expanded within the latter rather than in the matrix grains. As a result, the primary twins did not contribute significantly to the annealing texture.
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Acknowledgements
The authors are grateful to the Natural Sciences and Engineering Research Council of Canada for support of the present research and to General Motors of Canada for providing the materials. The authors are also thankful to Dr. Lan Jiang for providing access to her EBSD data.