Steel sheet and plated steel sheet, method for producing steel sheet, and method for producing plated steel sheet

The invention claimed is: 1. A steel sheet of a composition comprising, in mass %, C: 0.05 to 0.12%, Si: 0.80% or less, Mn: 1.30 to 2.10%, P: 0.001 to 0.050%, S: 0.005% or less, Al: 0.01 to 0.10%, N: 0.010% or less, one or more selected from Cr in an amount of 0.05 to 0.50%, and Mo in an amount of 0.05 to 0.50%, one or more selected from Ti in an amount of 0.01 to 0.10%, Nb in an amount of 0.01 to 0.10%, and V in an amount of 0.01 to 0.10%, and the balance Fe and unavoidable impurities, and of a micro structure that contains 70 to 90% of ferrite, 5 to 20% of martensite, 0 to 5% of retained austenite, 1 to 10% of bainite, and 0 to 5% of perlite by volume, and in which the ferrite has an average crystal grain diameter of 20 μm or less, the martensite has an average crystal grain diameter of 5 μm or less, the retained austenite has an average crystal grain diameter of 5 μm or less, and the bainite has an average crystal grain diameter of 7 μm or less, the steel sheet having a tensile strength of 590 MPa or more. 2. A plated steel sheet comprising a plating layer on a surface of the steel sheet of claim 1 . 3. The plated steel sheet according to claim 2 , wherein the plating layer is a hot-dip galvanized layer or a hot-dip galvannealed layer. 4. The steel sheet according to claim 1 , wherein the composition further comprises, in mass %, one or more selected from Cu in an amount of 0.50% or less, Ni in an amount of 0.50% or less, B in an amount of 0.01% or less, and a total of 0.005% or less of Ca and/or REM. 5. A plated steel sheet comprising a plating layer on a surface of the steel sheet of claim 4 . 6. The plated steel sheet according to claim 5 , wherein the plating layer is a hot-dip galvanized layer or a hot-dip galvannealed layer. 7. A method for producing the steel sheet of claim 1 , the method comprising: hot rolling a steel material of the composition of claim 1 under the conditions where a rolling reduction of a final pass of finish rolling is 12% or more, a rolling reduction of a preceding pass of the final pass is 15% or more, and a finisher delivery temperature is 850 to 950° C.; subjecting the steel after the hot rolling to first cooling in which the steel is cooled to a cooling stop temperature at a first average cooling rate of 50° C./s or more, the cooling stop temperature being 750° C. or less; subjecting the steel after the first cooling to second cooling in which the steel is cooled to a coiling temperature at a second average cooling rate of 5° C./s or more and less than 50° C./s; coiling the steel after the second cooling at a coiling temperature of 650° C. or less to produce a hot-rolled steel sheet; pickling and cold rolling the hot-rolled steel sheet to produce a cold-rolled full-hard steel sheet; heating the cold-rolled full-hard steel sheet under the conditions where the dew point in a temperature range of 600° C. or more is −40° C. or less, and a maximum achieving temperature is 730 to 880° C.; retaining the heated cold-rolled full-hard steel sheet at the maximum achieving temperature for a retention time of 15 to 600 seconds; and cooling the retained heated cold-rolled full-hard steel sheet to a cooling stop temperature at an average cooling rate of 2 to 30° C./s, the cooling stop temperature being 650° C. or less. 8. A method for producing a plated steel sheet, the method comprising plating a surface of the steel sheet obtained by the method of claim 7 . 9. The method according to claim 8 , wherein the plating is a process that involves hot-dip galvanization, and alloying at 450 to 600° C. 10. A method for producing the steel sheet of claim 1 , the method comprising: hot rolling a steel material of the composition of claim 1 under the conditions where a rolling reduction of a final pass of finish rolling is 12% or more, a rolling reduction of a preceding pass of the final pass is 15% or more, and a finisher delivery temperature is 850 to 950° C.; subjecting the steel after the hot rolling to first cooling in which the steel is cooled to a cooling stop temperature at a first average cooling rate of 50° C./s or more, the cooling stop temperature being 750° C. or less; subjecting the steel after the first cooling to second cooling in which the steel is cooled to a coiling temperature at a second average cooling rate of 5° C./s or more and less than 50° C./s; coiling the steel after the second cooling at a coiling temperature of 650° C. or less to produce a hot-rolled steel sheet; pickling and cold rolling the hot-rolled steel sheet to produce a cold-rolled full-hard steel sheet; heating the cold-rolled full-hard steel sheet at a heating temperature of 700 to 900° C.; cooling the cold-rolled full-hard steel sheet to produce a heat-treated sheet; heating the heat-treated sheet under the conditions where the dew point in a temperature range of 600° C. or more is −40° C. or less, and a maximum achieving temperature is 730 to 880° C.; retaining the heat-treated sheet at the maximum achieving temperature for a retention time of 15 to 600 seconds; and cooling the retained heat-treated sheet to a cooling stop temperature at an average cooling rate of 2 to 30° C./s, the cooling stop temperature being 650° C. or less. 11. A method for producing a plated steel sheet, the method comprising plating a surface of the steel sheet obtained by the method of claim 10 . 12. The method according to claim 11 , wherein the plating is a process that involves hot-dip galvanization, and alloying at 450 to 600° C. 13. A method for producing the steel sheet of claim 4 , the method comprising: hot rolling a steel material of the composition of claim 4 under the conditions where a rolling reduction of a final pass of finish rolling is 12% or more, a rolling reduction of a preceding pass of the final pass is 15% or more, and a finisher delivery temperature is 850 to 950° C.; subjecting the steel after the hot rolling to first cooling in which the steel is cooled to a cooling stop temperature at a first average cooling rate of 50° C./s or more, the cooling stop temperature being 750° C. or less; subjecting the steel after the first cooling to second cooling in which the steel is cooled to a coiling temperature at a second average cooling rate of 5° C./s or more and less than 50° C./s; coiling the steel after the second cooling at a coiling temperature of 650° C. or less to produce a hot-rolled steel sheet; pickling and cold rolling the hot-rolled steel sheet to produce a cold-rolled full-hard steel sheet; heating the cold-rolled full-hard steel sheet under the conditions where the dew point in a temperature range of 600° C. or more is −40° C. or less, and a maximum achieving temperature is 730 to 880° C.; retaining the heated cold-rolled full-hard steel sheet at the maximum achieving temperature for a retention time of 15 to 600 seconds; and cooling the retained heated cold-rolled full-hard steel sheet to a cooling stop temperature at an average cooling rate of 2 to 30° C./s, the cooling stop temperature being 650° C. or less. 14. A method for producing a plated steel sheet, the method comprising plating a surface of the steel sheet obtained by the method of claim 13 . 15. The method according to claim 14 , wherein the plating is a process that involves hot-dip galvanization, and alloying at 450 to 600° C. 16. A method for producing the steel sheet of claim 4 , the method comprising: hot rolling a steel material of the composition of claim 4 under the conditions where a rolling reduction of a final pass of finish rolling is 12% or more, a rolling reduction of