Magnesium alloy sheet material

The invention claimed is: 1. A manufacturing method of a magnesium alloy sheet material comprising the steps of: forming a cast material by casting a dissolved magnesium alloy, wherein the cast material formed comprises a long period stacking order phase crystallized during said casting and a plurality of α-magnesium phases; after forming said cast material, plastic working said cast material to form a magnesium alloy sheet material having an improved tensile strength and elongation capability relative to the cast material prior to extrusion, and wherein said long period stacking order phase has a first shape; after said plastic working, performing a heat treatment to said magnesium alloy sheet material to spread out the long period stacking order phase into a sheet shape; and after said heat treatment that spreads the long period stacking order phase, rolling said magnesium alloy sheet material to either one or both of shear-deform or compression-deform the long period stacking order phase and thereby introduce a kink deformation into the long period stacking order phase which further improves tensile strength and ductility of the magnesium alloy sheet material; wherein, after rolling, said magnesium alloy sheet material comprises: in a case where a sheet-thickness traverse section of an alloy structure is observed at a substantially right angle to the longitudinal direction by a scanning electro-microscope, a structure mainly composed of said long period stacking order phase, in which at least two or more of said αMg phases having thickness in the observed section of 0.5 μm or less are laminated in a layered manner with said long period stacking order phase of the sheet shape, and wherein said magnesium alloy sheet material comprises 2 atomic % of Zn, 2 atomic % of Y, and the remaining part including Mg and unavoidable impurities. 2. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein said heat treatment is performed within a temperature range of 400° C. or more and 500° C. or less and within a time range of 0.5 hours or more and 10 hours or less. 3. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein said long period stacking order phase in the laminated structure has maximum thickness in the observed section of 9 μm or less. 4. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein in the laminated structure, said long period stacking order phase of the sheet shape and said αMg phases having smaller-thickness in the observed section than said long period stacking order phase are laminated in a layered manner. 5. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein said long period stacking order phase of the sheet shape in the laminated structure has minimum thickness in the observed section of 0.25 μm or more. 6. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein the laminated structure includes an intermetallic compound. 7. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein at least part of the laminated structure is shear-deformed or compression-deformed. 8. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein at least part of the laminated structure is curved or bent. 9. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein the laminated structure includes Mg 3 Zn 3 Y 2 , the Mg 3 Zn 3 Y 2 is spread in said long period stacking order phase or said αMg phases. 10. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein said further improvement of tensile strength and ductility of the magnesium alloy sheet material during the rolling step comprises at least a 5% improvement in ductility. 11. The manufacturing method of the magnesium alloy sheet material according to claim 1 , wherein said further improvement of tensile strength and ductility of the magnesium alloy sheet material during the rolling step comprises at least a 10% improvement in ductility.