High-strength steel sheet and the method for production therefor

The invention claimed is: 1. A high-strength steel sheet consisting of, by weight: not less than 0.25% and not more than 0.5% of C, not less than 4% and not more than 14% of Mn, not less than 6.5% and not more than 9.5% of Cr, and not less than 0.3% and not more than 3% of Si, not less than 0.005% and not more than 0.05% of N, not less than 0.05% and not more than 4% of Al, not less than 0.1% and not more than 4% of Ni, not less than 0.05% and not more than 3% of Mo, and not less than 0.1% and not more than 2% of Cu, balance of Fe and inevitable impurities; the high-strength steel sheet satisfying the following formulas 1 and 2, in which the element symbol indicates the content thereof in weight %, the prefactors representing the chromium and nickel equivalents, and the steel consisting essentially of austenite; and the high-strength steel sheet having a yield strength of not less than 1000 MPa and total elongation of not less than 20% 12≦2.0Si+5.5Al+Cr+1.5Mo≦25  (1) 13≦30C+0.5Mn+0.3Cu+Ni+25N≦17  (2). 2. The high-strength steel sheet according to claim 1 , wherein the steel sheet includes martensite at total content of not more than 10%, and aspect ratio of crystal grain sizes that is measured at a cross section parallel to the rolling direction is not less than 2. 3. The high-strength steel sheet according to claim 1 , wherein the steel sheet has martensite, of which weight percentage increases at not less than 0.6% when the high-strength steel sheet is deformed by tensile strength at a tensile strain of 1%. 4. A method for producing a high-strength steel sheet as recited in claim 1 , the method comprising: hot rolling a slab consisting of a predetermined composition; and rolling the slab so that total rolling reduction R in % and rolling temperature T in ° C. satisfy the following formulas (3) and (4) 20%≦ R≦ 70%  (3) 60° C.≦ T ≦500° C.  (4). 5. The high-strength steel sheet according to claim 2 , wherein the steel sheet has martensite, of which weight percentage increases at not less than 0.6% when the high-strength steel sheet is deformed by tensile strength at a tensile strain of 1%. 6. A method for producing a high-strength steel sheet as recited in claim 2 , the method comprising: hot rolling a slab consisting of a predetermined composition; and rolling the slab so that total rolling reduction R in % and rolling temperature T in ° C. satisfy the following formulas (3) and (4) 20%≦ R≦ 70%  (3) 60° C.≦ T ≦500° C.  (4). 7. A method for producing a high-strength steel sheet as recited in claim 3 , the method comprising: hot rolling a slab consisting of a predetermined composition; and rolling the slab so that total rolling reduction R in % and rolling temperature T in ° C. satisfy the following formulas (3) and (4) 20%≦ R≦ 70%  (3) 60° C.≦ T ≦500° C.  (4). 8. A method for producing a high-strength steel sheet as recited in claim 1 , wherein the high-strength steel sheet contains not more than 8.4% by weight of Mn.