Sheet steel product, a steel component produced from such a sheet steel product, and body for a motor vehicle

The invention claimed is: 1. A flat steel product comprising a core layer comprising a steel having a tensile strength of at least 1700 MPa, and an outer layer which is cohesively bonded to the core layer, the outer layer having a tensile strength of not more than half the tensile strength of the steel of the core layer in a ready-hardened state and elongation A80 that is at least 1.5 times the elongation A80 of the core layer in the ready-hardened state, wherein the core layer comprises a steel which, as well as iron and unavoidable impurities comprises 0.3-0.5% by weight of C, 0.150-0.350% by weight of Si, 1.100-1.400% by weight of Mn, 0.020-0.050% by weight of Al, 0.100-0.500% by weight of Cr, 0.020-0.040% by weight of Ti and 0.002-0.004% by weight of B, where the impurities include up to 0.020% by weight of P, up to 0.003% by weight of S, up to 0.100% by weight of Cu, up to 0.050% by weight of Mo, up to 0.007% by weight of N, up to 0.100% by weight of Ni, up to 0.003% by weight of Nb, up to 0.010% by weight of V, up to 0.030% by weight of Sn and up to 0.005% by weight of Ca, and wherein the outer layer comprises a steel which, as well as iron and unavoidable impurities comprises up to 0.09% by weight of C, up to 0.7% by weight of Si, 0.10-1.9% by weight of Mn, up to 0.06% by weight of Al, up to 0.4% by weight of Cr, up to 0.025% by weight of Nb and up to 0.13% by weight of Ti, wherein the impurities include up to 0.025% by weight of P, up to 0.015% by weight of S, up to 0.15% by weight of Cu, up to 0.05% by weight of Mo, up to 0.006% by weight of N, up to 0.15% by weight of Ni, up to 0.02% by weight of V, up to 0.001% by weight of B, up to 0.04% by weight of Sn and up to 0.003% by weight of Ca. 2. The flat steel product as claimed in claim 1 , wherein the core layer makes up 40-95% of the thickness of the flat steel product. 3. The flat steel product as claimed in claim 2 , wherein the core layer makes up 60-<70% of the thickness of the flat steel product. 4. The flat steel product as claimed in claim 2 , wherein the core layer makes up 70-95% of the thickness of the flat steel product. 5. The flat steel product as claimed in claim 1 , wherein the tensile strength of the outer layer is not more than one third of the tensile strength of the core layer in the ready-hardened state. 6. The flat steel product as claimed in claim 1 , wherein, in the ready-hardened state, the elongation A80 of the outer layer is at least twice as high as the elongation A80 of the core layer. 7. The flat steel product as claimed in claim 1 , wherein the core layer comprises a steel which comprises, as well as iron and unavoidable impurities (in % by weight) C: 0.3-0.45%, Si: 0.2-0.28%, Mn: 1.15-1.3%, Al: 0.03-0.04%, Cr: 0.14-0.45%, Ti: 0.026-0.034%, and B: 0.002-0.003%. 8. The flat steel product as claimed in claim 1 , wherein the outer layer comprises a steel which comprises, as well as iron and unavoidable impurities (in % by weight) C: 0.002-0.075%, Si: 0.01-0.6%, Mn: 0.13-1.8%, Al: 0.03-0.04%, Cr: 0.025-0.35%, Nb: 0.002-0.02%, and Ti: 0.002-0.12%. 9. A flat steel product comprising a core layer comprising a steel having a tensile strength of more than 1500 MPa, and an outer layer which is cohesively bonded to the core layer, the outer layer having a tensile strength of not more than one third the tensile strength of the steel of the core layer in a ready-hardened state and elongation A80 that is at least 1.5 times the elongation A80 of the core layer in the ready-hardened state, wherein the core layer comprises a steel which, as well as iron and unavoidable impurities comprises 0.3-0.5% by weight of C, 0.150-0.350% by weight of Si, 1.100-1.400% by weight of Mn, 0.020-0.050% by weight of Al, 0.100-0.500% by weight of Cr, 0.020-0.040% by weight of Ti and 0.002-0.004% by weight of B, where the impurities include up to 0.020% by weight of P, up to 0.003% by weight of S, up to 0.100% by weight of Cu, up to 0.050% by weight of Mo, up to 0.007% by weight of N, up to 0.100% by weight of Ni, up to 0.003% by weight of Nb, up to 0.010% by weight of V, up to 0.030% by weight of Sn and up to 0.005% by weight of Ca, and wherein the outer layer comprises a steel which, as well as iron and unavoidable impurities comprises up to 0.09% by weight of C, up to 0.7% by weight of Si, 0.10-1.9% by weight of Mn, up to 0.06% by weight of Al, up to 0.4% by weight of Cr, up to 0.025% by weight of Nb and up to 0.13% by weight of Ti, wherein the impurities include up to 0.025% by weight of P, up to 0.015% by weight of S, up to 0.15% by weight of Cu, up to 0.05% by weight of Mo, up to 0.006% by weight of N, up to 0.15% by weight of Ni, up to 0.02% by weight of V, up to 0.001% by weight of B, up to 0.04% by weight of Sn and up to 0.003% by weight of Ca. 10. The flat steel product as claimed in claim 9 , wherein the core layer makes up 40-95% of the thickness of the flat steel product. 11. The flat steel product as claimed in claim 10 , wherein the core layer makes up 60-<70% of the thickness of the flat steel product. 12. The flat steel product as claimed in claim 10 , wherein the core layer makes up 70-95% of the thickness of the flat steel product. 13. The flat steel product as claimed in claim 9 , wherein, in the ready-hardened state, the elongation A80 of the outer layer is at least twice as high as the elongation A80 of the core layer. 14. The flat steel product as claimed in claim 9 , wherein the core layer comprises a steel which comprises, as well as iron and unavoidable impurities (in % by weight) C: 0.3-0.45%, Si: 0.2-0.28%, Mn: 1.15-1.3%, Al: 0.03-0.04%, Cr: 0.14-0.45%, Ti: 0.026-0.034%, and B: 0.002-0.003%. 15. The flat steel product as claimed in claim 9 , wherein the outer layer comprises a steel which comprises, as well as iron and unavoidable impurities (in % by weight) C: 0.002-0.075%, Si: 0.01-0.6%, Mn: 0.13-1.8%, Al: 0.03-0.04%, Cr: 0.025-0.35%, Nb: 0.002-0.02%, and Ti: 0.002-0.12%. 16. A flat steel product comprising a core layer comprising a steel having a tensile strength of more than 1500 MPa, and an outer layer which is cohesively bonded to the core layer, the outer layer having a tensile strength of not more than half the tensile strength of the steel of the core layer in a ready-hardened state and elongation A80 that is at least 1.5 times the elongation A80 of the core layer in the ready-hardened state, wherein the core layer comprises a steel which, as well as iron and unavoidable impurities comprises 0.3-0.5% by weight of C, 0.150-0.350% by weight of Si, 1.100-1.400% by weight of Mn, 0.020-0.050% by weight of Al, 0.100-0.500% by weight of Cr, 0.020-0.040% by weight of Ti and 0.002-0.004% by weight of B, where the impurities include up to 0.020% by weight of P, up to 0.003% by weight of S, up to 0.100% by weight of Cu, up to 0.050% by weight of Mo, up to 0.007% by weight of N, up to 0.100% by weight of Ni, up to 0.003% by weight of Nb, up to 0.010% by weight of V, up to 0.030% by weight of Sn and up to 0.005% by weight of Ca, and wherein the outer layer comprises a steel which, as well as iron and unavoidable impurities comprises 0.002-0.075% by weight of C, 0.01-0.6% by weight of Si, 0.13-1.8% by weight of Mn, 0.03-0.04% by weight of Al, 0.025-0.35% by weight of Cr, 0.002-0.02% by weight of Nb and 0.002-0.12% by weight of Ti, wherein the impurities include up to 0.025% by weight of P, up to 0.015% by weight of S, up to 0.15% by weight of Cu, up to 0.05% by weight of Mo, up to 0.006% by weight of N, up to 0.15% by weight of Ni, up to 0.02% by weight of V, up