Steel sheet for cans and method for manufacturing steel sheet for cans

The invention claimed is: 1. A steel sheet for cans, the steel sheet having a chemical composition containing, by mass %, C: 0.015% or more and 0.150% or less, Si: 0.04% or less, Mn: 1.0% or more and 2.0% or less, P: 0.025% or less, S: 0.015% or less, Al: 0.01% or more and 0.10% or less, N: 0.0005% or more and less than 0.0050%, Ti: 0.003% or more and 0.015% or less, B: 0.0010% or more and 0.0040% or less, and the balance being Fe and inevitable impurities, a steel sheet microstructure including a ferrite phase as a main phase and at least one of a martensite phase and a retained austenite phase as a second phase, the total area fraction of the second phase being 1.0% or more, a tensile strength of 480 MPa or more, a total elongation of 12% or more, and a yield elongation of 2.0% or less, wherein the steel sheet is cooled at a cooling rate from an annealing temperature to a temperature of 400° C. at 2° C./s or more and less than 70° C./s in order to have excellent formability, and wherein by cutting a circle (size: 140 mmϕ) out of the steel sheet, by then performing, deep drawing, and ironing in order to make a can having a bottom and a circular cylindrical form (size: 50 mmϕ×100 mmH), by then performing bead forming on five positions in total in the circumferential direction of the can, that is, on the central position in the height direction of the can body, positions located 10 mm higher and lower, than the central position in the height direction, and positions located 20 mm higher and lower than the central position in the height direction, and by obtaining a can having a can body similar to that of a two-piece can, excellent formability exists when fracturing does not occur in the can body at the time of can making. 2. The steel sheet for cans according to claim 1 , wherein the chemical composition further contains one or both of Cr: 0.03% or more and 0.30% or less and Mo: 0.01% or more and 0.10% or less. 3. A method for manufacturing the steel sheet for cans according to claim 1 , the method comprising heating a slab having the chemical composition according to claim 1 to a heating temperature of 1130° C. or higher, hot-rolling the heated slab with a finishing temperature of 820° C. or higher and 930° C. or lower, then coiling the hot-rolled steel sheet at a coiling temperature of 640° C. or lower, pickling the coiled steel sheet, performing primary cold rolling on the pickled steel sheet with a rolling reduction of 85% or more, performing continuous annealing on the cold-rolled steel sheet at an annealing temperature of 720° C. or higher and 780° C. or lower, and performing secondary cold rolling with a rolling reduction of 1.0% or more and 10% or less. 4. The method for manufacturing the steel sheet for cans according to claim 3 , the method further comprising, after the continuous annealing has been performed, cooling the annealed steel sheet from the annealing temperature to a temperature of 400° C. at a cooling rate of 2° C./s or more and less than 70° C./s and then performing the secondary cold rolling. 5. The method for manufacturing the steel sheet for cans according to claim 3 , wherein the chemical composition further contains one or both of Cr: 0.03% or more and 0.30% or less and Mo: 0.01% or more and 0.10% or less. 6. The method for manufacturing the steel sheet for cans according to claim 5 , the method further comprising, after the continuous annealing has been performed, cooling the annealed steel sheet from the annealing temperature to a temperature of 400° C. at a cooling rate of 2° C./s or more and less than 70° C./s and then performing the secondary cold rolling.