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Icosahedral phase(I-phase) is a relatively excellent strengthening phase in Mg alloys.Depending on their volume fraction,the yield strength of Mg-Zn-Y-Zr alloys can vary from 150 to 450 MPa at room temperature.Recently,the formation of I-phase has been considered as one of the most effective methods for developing high strength lightweight Mg alloys for automotive and aerospace applications.In this review article,a series of research work about I-phase containing Mg alloys have been systematically investigated including I-phase formation mechanism and their effects on mechanical properties of Mg alloys.Particular emphases have been given to:(1) Structure of I-phase and its orientation relationship with the a-Mg matrix.(2) Influence of alloying elements and solidification conditions on I-phase formation.(3) Effects of I-phase on microstructural evolution and mechanical improvement of Mg-Zn-Y-(Zr) alloys.Moreover,the applications of I-phase for the mechanical improvement of other Mg alloys such as AZ91 and super-lightweight Mg-Li alloys are also reviewed.
Icosahedral phase (I-phase) is a relatively high strengthening phase in Mg alloys. Depending on their volume fraction, the yield strength of Mg-Zn-Y-Zr alloys can vary from 150 to 450 MPa at room temperature. of I-phase has been considered as one of the most effective methods for developing high strength lightweight alloys for automotive and aerospace applications. In this review article, a series of research work about I-phase containing Mg alloys have been systematically investigated including I -phase formation mechanism and their effects on mechanical properties of Mg alloys. Particular emphases have been given to: (1) Structure of I-phase and its orientation relationship with the a-Mg matrix. (2) Influence of alloying elements and solidification conditions on I-phase formation. (3) Effects of I-phase on microstructural evolution and mechanical improvement of Mg-Zn-Y- (Zr) alloys. More over, the applications of I-phase for the mechanical improvement of other Mg allo ys such as AZ91 and super-lightweight Mg-Li alloys are also reviewed.