Grain oriented electrical steel sheet and method for manufacturing the same

The invention claimed is: 1. A grain oriented electrical steel sheet having a forsterite coating and tension coating on a surface thereof and having plastic strain extending in a direction inclined by 45° to 90° with respect to the rolling direction, wherein: the forsterite coating is formed by coating a surface of the steel sheet with 10.0 g/m 2 to 20.0 g/m 2 of annealing separator; total tension in a rolling direction imparted to the steel sheet by the forsterite coating and the tension coating is equal to or higher than 15 MPa, total tension in a direction orthogonal to the rolling direction imparted to the steel sheet by the forsterite coating and the tension coating is equal to or higher than 5.0 MPa; and the total tension in the rolling direction and the total tension in the direction orthogonal to the rolling direction satisfy 1.0 ≦A/B ≦5.0 A: the total tension in rolling direction imparted to the steel sheet by forsterite coating and tension coating, and B: the total tension in a direction orthogonal to the rolling direction imparted to the steel sheet by forsterite coating and tension coating. 2. A method of manufacturing the grain oriented electrical steel sheet of claim 1 , comprising: rolling a slab for a grain oriented electrical steel sheet to obtain a steel sheet having final sheet thickness; subjecting the steel sheet to decarburizing annealing; then coating a surface of the steel sheet with annealing separator mainly composed of MgO; subjecting the steel sheet thus coated to final annealing; providing a tension coating to the steel sheet; and subjecting the steel sheet to magnetic domain refinement by laser irradiation after either the final annealing or provision of the tension coating, wherein (1) coating weight of the anneal separator is set from 10.0 g/m 2 to 20.0 g/m 2 ; (2) coiling tension at which the steel sheet is coiled after being coated with the annealing separator is set to 30 N/mm 2 to 150 N/mm 2 ; and (3) controlling the average cooling rate in cooling process of the final annealing down to 700° C. to 50° C./hour or less. 3. The method of claim 2 , further comprising subjecting the slab to the hot rolling, optionally, hot-band annealing, and either one cold rolling operation or at least two cold rolling operations with intermediate annealing therebetween to obtain a steel sheet having the final sheet thickness. 4. A method of manufacturing the grain oriented electrical steel sheet of claim 1 , comprising: rolling a slab for a grain oriented electrical steel sheet to obtain a steel sheet having final sheet thickness; subjecting the steel sheet to decarburizing annealing; then coating a surface of the steel sheet with annealing separator mainly composed of MgO; subjecting the steel sheet thus coated to final annealing; providing a tension coating to the steel sheet; and subjecting the steel sheet to magnetic domain refinement by electron beam irradiation after either the final annealing or provision of the tension coating, wherein (1) coating weight of the anneal separator is set from 10.0 g/m 2 to 20.0 g/m 2 ; (2) coiling tension at which the steel sheet is coiled after being coated with the annealing separator is set to 30 N/mm 2 to 150 N/mm 2 ; and (3) controlling the average cooling rate in cooling process of the final annealing down to 700° C. to 50° C./hour or less. 5. The method of claim 4 , further comprising subjecting the slab to the hot rolling, optionally, hot-band annealing, and either one cold rolling operation or at least two cold rolling operations with intermediate annealing therebetween to obtain a steel sheet having the final sheet thickness.