Ultrahigh-strength steel sheet with excellent workability, and manufacturing method thereof

The invention claimed is: 1. An ultrahigh-strength steel sheet, comprising, based on a total mass of the steel sheet: from 0.05% to 0.25% of carbon (C); from 0.5% to 2.5% of silicon (Si); from 2.0% to 4% of manganese (Mn); 0.1% or less, excluding 0%, of phosphorus (P); 0.05% or less, excluding 0%, of sulfur (S); from 0.01% to 0.1% of aluminum (Al); 0.01% or less, excluding 0%, of nitrogen (N); and iron (Fe), wherein the steel sheet comprises martensite; and a soft phase comprising bainitic ferrite and if any, polygonal ferrite, the steel sheet does not comprise retained austenite, the steel sheet comprises, by area percent relative to the entire steel sheet: 50 percent or more of the martensite; 15 percent or more of the bainitic ferrite; 4 percent or less of the polygonal ferrite; and a total content of 4 percent or less of other metal microstructures, the steel sheet has a coefficient of variation [(standard deviation)/(arithmetic mean)] in equivalent circle diameters of grains of the soft phase of 1.0 or less, and the steel sheet has a tensile strength of 1100 MPa or more. 2. The ultrahigh-strength steel sheet of claim 1 , further comprising, at least one selected from the group consisting of: 0.10% or less, excluding 0%, of titanium (Ti); 0.2% or less, excluding 0%, of niobium (Nb); and 0.2% less, excluding 0%, of vanadium (V). 3. The ultrahigh-strength steel sheet of claim 1 , further comprising, at least one selected from the group consisting of: 1% or less, excluding 0%, of chromium (Cr); 1% or less, excluding 0%, of copper (Cu); and 1% or less, excluding 0%, of nickel (Ni). 4. The ultrahigh-strength steel sheet of claim 1 , further comprising, at least one selected from the group consisting of: 1% or less, excluding 0%; of molybdenum (Mo); and 1% or less, excluding 0%, of tungsten (W). 5. The ultrahigh-strength steel sheet of claim 1 , further comprising: 0.005% or less, excluding 0%, of boron B. 6. The ultrahigh-strength steel sheet of claim 1 , further comprising, at least one selected from the group consisting of: 0.005% or less, excluding 0%, of calcium (Ca); 0.005% or less, excluding 0%, of magnesium (Mg); and 0.005% or less, excluding 0%, of a rare earth element (REM). 7. The ultrahigh-strength steel sheet of claim 1 , further comprising a hot-dip galvanized layer or a hot-dip galvannealed layer on a surface of the steel sheet. 8. The ultrahigh-strength steel sheet of claim 1 , comprising, by area percent relative to the entire steel sheet: 60 percent or more of the martensite; 20 percent or more of the bainitic ferrite; and 4 percent by area or less of the polygonal ferrite. 9. The ultrahigh-strength steel sheet of claim 1 , comprising, by area percent relative to the entire steel sheet: 70 percent or more of the martensite; 25 percent or more of the bainitic ferrite; and 3 percent by area or less of the polygonal ferrite. 10. The ultrahigh-strength steel sheet of claim 1 , comprising, by area percent relative to the entire steel sheet: from 70 to 85 percent of themartensite; from 25 to 50 percent of the bainitic ferrite; and 3 percent or less of the polygonal ferrite. 11. The ultrahigh-strength steel sheet of claim 1 , comprising, by area percent relative to the entire steel sheet: from 70 to 80 percent of the martensite; from 25 to 45 percent of the bainitic ferrite; and 0 percent of the polygonal ferrite. 12. The ultrahigh-strength steel sheet of claim having a coefficient of variation [(standard deviation)/(arithmetic mean)] in equivalent circle diameters of grains of the soft phase of 0.9 or less. 13. The ultrahigh-strength steel sheet of claim 1 , having a coefficient of variation [(standard deviation)/(arithmetic mean)] in equivalent circle diameters of grains of the soft phase of 0.8 or less. 14. The ultrahigh-strength steel sheet of claim 1 , comprising: from 0.1% to 0.2% of carbon (C); from 0.75% to 2.5% of silicon (Si); from 2.3% to 3.5% of manganese (Mn); 0.03% or less, excluding 0%, of phosphorus (P); 0.01% or less, excluding 0%, of sulfur (S); from 0.02% to 0.08% of aluminum (Al); 0.008% or less, excluding 0%, of nitrogen (N); and iron (Fe). 15. The ultrahigh-strength steel sheet of claim 1 , comprising: from 0.13% to 0.18% of carbon (C); from 1.0% to 2.0% of silicon (Si); from 2.5% to 3.0% manganese (Mn); 0.015% or less, excluding 0%, of phosphorus (P); 0.008% or less, excluding 0%, of sulfur (S); from 0.03% to 0.05% of aluminum (Al); 0.005% or less, excluding 0%, of nitrogen (N); and iron (Fe). 16. The ultrahigh-strength steel sheet of claim 15 , comprising, by area percent relative to the entire steel sheet: from 70 to 85 percent of the martensite; from 25 to 50 percent of the bainitic ferrite; and 3 percent or less of the polygonal ferrite. 17. The ultrahigh-strength steel sheet of claim 1 , which consists of the martensite and a soft phase consisting of the bainitic ferrite and, if any, the polygonal ferrite. 18. A method for manufacturing the ultrahigh-strength steel sheet of claim 1 , the method comprising: (I) cold-rolling a hot-rolled steel sheet comprising, based on a total mass of the hot-rolled steel sheet: from 0.05% to 0.25% of carbon (C); from 0.5% to 2.5% of silicon (Si); from 2.0% to 4% of manganese (Mn); 0.1% or less, excluding 0%, of phosphorus (P); 0.05% or less, excluding 0%, of sulfur (S); from 0.01% to 0.1% of aluminum (Al); and 0.01% or less, excluding 0%, of nitrogen (N); and iron (Fe), to a cold-rolling reduction CR by percent satisfying Expression (1): 0.4×CR−400×[Ti]−250×[Nb]−150×[V]+10×[Si]−10×[Mn]+10≧0  (1) wherein [Ti], [Nb], [V], [Si], and [Mn] are the percent by mass of the respective elements; (II) soaking the steel sheet after cold rolling at a temperature of from a temperature lower than Ac 3 point by 10° C. to a temperature higher than the Ac 3 point by 50° C. to obtain a soaked steel sheet; and (III) cooling the soaked steel sheet down to a cooling stop temperature of 550° C. or lower and 450° C. or higher and holding the soaked steel sheet at the cooling stop temperature for 50 to 200 seconds, to obtain the ultrahigh-strength steel sheet. 19. A method for manufacturing an ultrahigh-strength hot-dip galvanized steel sheet, the method comprising: hot-dip galvanizing the ultrahigh-strength steel sheet obtained by the method of claim 18 , thereby obtaining the ultrahigh-strength hot-dip galvanized steel sheet. 20. The method of claim 19 , further comprising: subjecting the ultrahigh-strength hot-dip galvanized steel sheet to an alloying treatment.