Steel sheet for three-piece can and method for manufacturing the same

The invention claimed is: 1. A steel sheet for a three-piece can, the steel sheet having a chemical composition consisting of, by mass %, C: 0.0005% or more and 0.0035% or less, Si: 0.050% or less, Mn: 0.63% or more and 1.00% or less, P: 0.030% or less, S: 0.020% or less, Al: 0.010% or more and 0.100% or less, N: 0.0030% or less, B: 0.0005% or more, and the balance being Fe and inevitable impurities, wherein: the relationship B/N≥0.50 is satisfied (where B/N represents (B(mass %)/10.81)/(N(mass %)/14.01)); a Young's modulus in a direction at an angle of 90° to a rolling direction is 220 GPa or more; a Lankford value in the direction at the angle of 90° to the rolling direction is less than 1.00; and an average ferrite grain size in the steel sheet is 10.0 μm or less. 2. The steel sheet for a three-piece can according to claim 1 , wherein: a yield point elongation is 3.0% or less after a heat treatment at a temperature of 210° C. for a duration of 20 minutes; and a breaking elongation is 25% or more after a heat treatment at a temperature of 210° C. for a duration of 20 minutes. 3. The steel sheet for a three-piece can according to claim 1 , wherein the steel sheet has a microstructure in which: an average integrated intensity of (111)[1-10] to (111)[-1-12] orientations in a plane parallel to a surface of the steel sheet is less than 7.0; and an average integrated intensity of (001)[1-10] to (111)[1-10] orientations in a plane parallel to the surface of the steel sheet is 3.8 or more. 4. The steel sheet for a three-piece can according to claim 2 , wherein the steel sheet has a microstructure in which: an average integrated intensity of (111) [1-10] to (111) [-1-12] orientations in a plane parallel to a surface of the steel sheet is less than 7.0; and an average integrated intensity of (001) [1-10] to (111) [1-10] orientations in a plane parallel to the surface of the steel sheet is 3.8 or more. 5. A method for manufacturing the steel sheet of claim 1 , the method comprising: performing hot rolling on a steel slab under a condition that the reheating temperature is higher than 1100° C. and 1300° C. or lower and that the final finish rolling temperature is 850° C. or higher and lower than 950° C., the steel slab having a chemical composition consisting of, by mass %, C: 0.0005% or more and 0.0035% or less, Si: 0.050% or less, Mn: 0.63% or more and 1.00% or less, P: 0.030% or less, S: 0.020% or less, Al: 0.010% or more and 0.100% or less, N: 0.0030% or less, B: 0.0005% or more, and the balance being Fe and inevitable impurities, in which a relationship B/N≥0.50 is satisfied where B/N represents (B(mass %)/10.81)/(N(mass %)/14.01); coiling the hot-rolled steel sheet at a temperature of 500° C. or higher and lower than 650° C.; pickling and thereafter cold rolling the coiled steel sheet with a rolling reduction of more than 92.0%; recrystallization annealing at a temperature of higher than 700° C. and 800° C. or lower using a continuous annealing process; and skin pass rolling the recrystallization annealed steel sheet with an elongation ratio of 0.5% or more and 5.0% or less.