New orientations between β′2 phase and α matrix in a Mg-Zn-Mn alloy processed by high strain rate rolling
Jimiao Jiang, Song Ni, Hongge Yan, Qin Wu, Min Song
Index: 10.1016/j.jallcom.2018.04.005
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Abstract
Strengthening precipitates in a Mg-Zn-Mn alloy, processed by high strain rate rolling, have been characterized by transmission electron microscopy. Precipitations involve a few (0001)α plates and spherical precipitates. All the precipitates have an hexagonal structure of MgZn2 and can be defined as β′2 phase. The (0001)α plates and a portion of the spherical precipitates have a common orientation relationship of 
[2¯110]β2'//[011¯0]α, 
(0001)β2'//(0001)α and 
(011¯0)β2'//(2¯110)α to α-Mg matrix. New orientation relationships (for example, [2¯110]β2'//[011¯0]α and 
(011¯5)β2'∼//(2¯110)α) between the spherical precipitates and α-Mg matrix were firstly observed, and the formation mechanism was systematically discussed.
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