Grain-oriented electrical steel sheet for iron core and method of manufacturing the same

The invention claimed is: 1. A grain-oriented electrical steel sheet for iron cores, the steel sheet comprising: linear strain regions on a surface of the steel sheet, the linear strain regions each extending in a direction forming an angle of 60° to 120° with a rolling direction, and residual stress formation regions having a residual stress of 150 MPa or more, the residual stress formation regions being located near the linear strain regions, each of the residual stress formation regions extending 300 μm or less in the rolling direction and 42 μm or more in a sheet thickness direction, wherein the linear strain regions are formed periodically at intervals of 2 mm to 10 mm in the rolling direction. 2. A grain-oriented electrical steel sheet for iron cores, the steel sheet comprising: linear strain regions on a surface of the steel sheet, the linear strain regions each extending in a direction forming an angle of 60° to 120° with a rolling direction, and residual stress formation regions having a residual stress of 150 MPa or more, the residual stress formation regions being located near the linear strain regions, each of the residual stress formation regions extending 300 μm or less in the rolling direction and 42 μm or more in the sheet thickness direction, wherein the residual stress formation regions are formed at intervals of 150 μm or more in the direction that the linear strain regions extend, and wherein the linear strain regions are formed periodically at intervals of 2 mm to 10 mm in the rolling direction. 3. The grain-oriented electrical steel sheet according to claim 1 , wherein the surface on which the linear strain regions are formed is an insulating coating that does not expose a steel substrate. 4. The grain-oriented electrical steel sheet according to claim 2 , wherein the surface on which the linear strain regions are formed is an insulating coating that does not expose a steel substrate. 5. A method of manufacturing the grain-oriented electrical steel sheet according to claim 1 , wherein the surface of the steel sheet is irradiated with an electron beam emitted from LaB 6 to form the linear strain regions on the surface of the steel sheet. 6. A method of manufacturing the grain-oriented electrical steel sheet according to claim 2 , wherein the surface of the steel sheet is irradiated with an electron beam emitted from LaB 6 to form the linear strain regions on the surface of the steel sheet. 7. A method of manufacturing the grain-oriented electrical steel sheet according to claim 3 , wherein the surface of the steel sheet is irradiated with an electron beam emitted from LaB 6 to form the linear strain regions on the surface of the steel sheet. 8. A method of manufacturing the grain-oriented electrical steel sheet according to claim 4 , wherein the surface of the steel sheet is irradiated with an electron beam emitted from LaB 6 to form the linear strain regions on the surface of the steel sheet. 9. A method of manufacturing the grain-oriented electrical steel sheet according to claim 1 , wherein the surface of the steel sheet is irradiated with an electron beam at a voltage of 90 kV or more. 10. A method of manufacturing the grain-oriented electrical steel sheet according to claim 2 , wherein the surface of the steel sheet is irradiated with an electron beam at a voltage of 90 kV or more. 11. A method of manufacturing the grain-oriented electrical steel sheet according to claim 3 , wherein the surface of the steel sheet is irradiated with an electron beam at a voltage of 90 kV or more. 12. A method of manufacturing the grain-oriented electrical steel sheet according to claim 4 , wherein the surface of the steel sheet is irradiated with an electron beam at a voltage of 90 kV or more. 13. The method according to claim 5 , wherein the surface of the steel sheet is irradiated with the electron beam at a voltage of 90 kV or more. 14. The method according to claim 6 , wherein the surface of the steel sheet is irradiated with the electron beam at a voltage of 90 kV or more. 15. The method according to claim 7 , wherein the surface of the steel sheet is irradiated with the electron beam at a voltage of 90 kV or more. 16. The method according to claim 8 , wherein the surface of the steel sheet is irradiated with the electron beam at a voltage of 90 kV or more.