Medium-manganese steel product for low-temperature use and method for the production thereof

What is claimed is: 1. A steel product for low temperature use with a notch impact energy of ≥50 J/cm 2 according to the Charpy notch impact test with V-notch at −196° C. in a transverse direction, said steel product comprising a following chemical composition in wt. %: C: 0.01 to <0.3; Mn: 4 to <10; Al: 0.003 to 2.9; Mo: 0.01 to 0.8; Si: 0.02 to 0.8; Ni: 0.01 to 3; P: <0,04; S: <0,02; N: <0.02; with the remainder being iron including unavoidable steel-associated elements, wherein an alloy composition satisfies the equation 6<1.5 Mn+Ni<7.5, with optional addition by alloying of one or more of the following elements in wt. %: Ti: 0,002 to 0.5; V: 0.006 to 0.1; Cr: 0.05 to 4; Cu: 0.05 to 2; Nb: 0.003 to 0,1; B: 0.0005 to 0.014; Co: 0,003 to 3; W: 0.03 to 2; Zr: 0.03 to 1; Ca: <0.004 and Sn: <0.5; said steel product comprising a microstructure of 2 to 90 vol. % austenite, less than 40 vol. % ferrite and/or bainite, with the remainder being martensite. 2. The steel product of claim 1 , constructed in the form of in particular a seamless pipe, wherein the microstructure has an austenite content of 2 to 80 vol. %, a ferrite or bainite content of less than 20 vol. %, with the remainder being martensite. 3. The steel product of claim 1 , wherein a proportion of at least 20% of the martensite is present as annealed martensite. 4. The steel product of claim 1 , wherein a proportion of up to 90% of the austenite is present in the form of annealing or deformation twins. 5. The steel product of claim 1 , wherein the steel product has an elasticity limit Rp0.2 of 450 to 1050 MPa, a tensile strength Rm of 500 to 1500 MPa and an elongation at fracture A50 of 6 to 45%. 6. The steel product of claim 1 , further comprising a metallic, inorganic or organic coating and optionally one or more other metallic, various inorganic or organic coatings are applied to the coating. 7. The steel product of claim 1 , wherein in wt. % C: 0.03 to 0.15; Mn: 4 to <8; Al: 0.03 to 0.4; Mo: 0.1 to 0.5; Si: 0.08 to 0.3. 8. The steel product of claim 2 , wherein the microstructure has an austenite content of 2-70 vol. %. 9. A steel product for low temperature use with a notch impact energy of ≥50 J/cm 2 according to the Charpy notch impact test with V-notch at −196° C. in a transverse direction, said steel product comprising a following chemical composition in wt. %: C: 0.01 to <0.3; Mn: 4 to <10; Al: 0.003 to 2.9; Mo: 0.01 to 0.8; Si: 0.02 to 0.8; Ni: 0.01 to 3; P: <0.04; 3: <0.02; N: <0.02; with the remainder being iron including unavoidable steel-associated elements, wherein an alloy composition satisfies the equation 0.15<C+Al<3, with optional addition by alloying of one or more of the following elements in wt. %: Ti: 0.002 to 0.5; V: 0.006 to 0.1; Cr: 0.05 to 4; Cu: 0.05 to 2; Nb: 0.003 to 0.1; B: 0.0005 to 0.014; Co: 0.003 to 3; W: 0.03 to 2; Zr: 0.03 to 1; Ca: <0.004 and Sn: <0.5; said steel product comprising a microstructure of 2 to 90 vol. % austenite, less than 40 vol. % ferrite and/or bainite, with the remainder being martensite. 10. The steel product of claim 9 , constructed in the form of in particular a seamless pipe, wherein the microstructure has an austenite content of 2 to 80 vol. %, a ferrite or bainite content of less than 20 vol. %, with the remainder being martensite. 11. The steel product of claim 9 , wherein a proportion of at least 20% of the martensite is present as annealed martensite. 12. The steel product of claim 9 , wherein a proportion of up to 90% of the austenite is present in the form of annealing or deformation twins. 13. The steel product of claim 9 , wherein the steel product has an elasticity limit Rp0.2 of 450 to 1050 MPa, a tensile strength Rm of 500 to 1500 MPa and an elongation at fracture A50 of 6 to 45%. 14. The steel product of claim 9 , further comprising a metallic, inorganic or organic coating and optionally one or more other metallic, various inorganic or organic coatings are applied to the coating. 15. The steel product of claim 9 , wherein in wt. %: C: 0.03 to 0.15; Mn: 4 to <8; Al: 0.03 to 0.4; Mo: 0.1 to 0.5; Si: 0.08 to 0.3. 16. The steel product of claim 10 , wherein the microstructure has an austenite content of 2-70 vol. %.