Iron-carbon-manganese austenitic steel sheet

What is claimed is: 1. An austenitic steel sheet excellent in resistance to delayed cracking, the composition of said steel comprising, in weight: 0.35%≤C≤1.05% 15%≤Mn≤26% Si≤3% Al≤0.050% S≤0.030% P≤0.080% N≤0.1%, and at least one metallic element X chosen among vanadium, titanium, niobium, molybdenum, chromium 0.050%≤V≤0.50%, 0.040%≤Ti≤0.50% 0.070%≤Nb≤0.50% 0.14%≤Mo≤2% 0.070%≤Cr≤2% a remainder being iron and unavoidable impurities inherent to fabrication, including hydrogen, a quantity X p of said at least one metallic element under a form of carbides, nitrides or carbonitrides being, in weight: 0.030%≤V p ≤0.40% 0.030%≤Ti p ≤0.50% 0.040%≤Nb p ≤0.40% 0.14%≤Mo p ≤0.44% 0.070%≤Cr p ≤0.6% a hydrogen content H max designating a maximal hydrogen content that can be measured from a series of at least five specimens, and the quantity X p , in weight, being such that: 1000 ⁢ H max X P ≤ 3.3 . 2. A steel sheet according to claim 1 , wherein 1000 ⁢ H max X P ≤ 2.5 . 3. A steel sheet according to claim 1 , wherein said sheet comprises a zinc or zinc—Y alloy coating, wherein element Y is one or more of Ni, Cr, Mg but not Fe or Mn. 4. A coated steel sheet, comprising: a base steel sheet including at least one surface, the base steel sheet being made of a base steel having a composition comprising, in weight: 0.35%≤C≤1.05% 15%≤Mn≤26% Si≤3% Al≤0.050% S≤0.030% P≤0.080% N≤0.1%, and at least one metallic element X chosen among vanadium, titanium, niobium, molybdenum, chromium: 0.050%≤V≤0.50%, 0.040%≤Ti≤0.50% 0.070%≤Nb≤0.50% 0.14%≤Mo≤2% 0.070%≤Cr≤2% a remainder being iron and unavoidable impurities inherent to fabrication, a quantity Xp of said at least one metallic element under a form of carbides, nitrides or carbonitrides being, in weight: 0.030%≤V p ≤0.40% 0.030%≤Ti p ≤0.50% 0.040%≤Nb p ≤0.40% 0.14%≤Mo p ≤0.44% 0.070%≤Cr p ≤0.6% a zinc or zinc—Y alloy coating, wherein element Y is one or more of Ni, Cr, Mg but not Fe or Mn, a thickness of said coating being less or equal to 50 micrometers; and an iron and manganese rich-Zn alloyed layer at an interface between the base steel sheet and the zinc or zinc-Y alloy layer, the iron and manganese rich-Zn alloyed layer containing at least 6%Fe and at least 1.7%Mn, a thickness of the alloyed layer being greater than or equal to 1 micrometer, the alloyed layer contacting the at least one surface of the base steel sheet. 5. A steel sheet according to claim 4 , wherein the thickness of said alloyed layer is greater than or equal to 4 micrometers. 6. Steel sheet according to claim 4 , wherein the thickness of said alloyed layer is greater than or equal to 7 micrometers. 7. A coated steel sheet comprising: a base steel sheet including at least one surface, the base steel sheet being made of a base steel having a composition comprising, in weight: 0.35%≤C≤1.05% 15%≤Mn≤26% Si≤3% Al≤0.050% S≤0.030% P≤0.080% N≤0.1%, at least one metallic element X chosen among vanadium, titanium, niobium, molybdenum, chromium: 0.050%≤V≤0.50%, 0.040%≤Ti≤0.50% 0.070%≤Nb≤0.50% 0.14%≤Mo≤2% 0.070%≤Cr≤2% and optionally, one or several elements chosen among: 0.0005%≤B≤0.010% Ni≤2% Cu≤5%, and as a remainder iron and unavoidable impurities inherent to fabrication, a quantity Xp of said at least one metallic element under a form of carbides, nitrides or carbonitrides being, in weight: 0.030%≤V p ≤0.40% 0.030%≤Ti p ≤0.50% 0.040%≤Nb p ≤0.40% 0.14%≤Mo p ≤0.44% 0.070%≤Cr p ≤0.6% a zinc or zinc—Y alloy coating on the base steel sheet, wherein element Y is one or more of Cr and Mg but not Fe or Mn; and a metallic coating layer at an interface between the base steel sheet and the zinc or zinc-Y alloy layer, the metallic coating layer contacting the at least one surface of the base steel sheet, the metallic coating layer acting as a hydrogen barrier between said base steel sheet and said zinc or zinc—Y alloy coating. 8. A steel sheet according to claim 7 , wherein the metal of said metallic coating layer is chosen among Sn, Ni, Ti, Cu, W, or Al, or alloys based on these said metals. 9. A steel sheet according to claim 7 , wherein said metallic coating layer has a thickness between 0.1 and 1 micrometer. 10. A steel sheet according to claim 1 , wherein said composition comprises, in weight 0.35%≤C≤0.50%. 11. A steel sheet according to claim 1 , wherein said composition comprises, in weight 0.50%<C≤0.70%. 12. A steel sheet according to claim 1 , wherein said composition comprises, in weight 0.70%<C≤1.05%. 13. A steel sheet according to claim 10 , wherein said composition comprises, in weight 17%≤Mn≤24%. 14. A steel sheet according to claim 11 , wherein said composition comprises, in weight 17%≤Mn≤24%. 15. A steel sheet according to claim 12 , wherein said composition comprises, in weight 16%≤Mn≤19%. 16. A steel sheet according to claim 1 , wherein said composition comprises 0.070%≤V≤0.40%, vanadium V p under the form of precipitated carbides, nitrides, carbonitrides, being 0.070%≤V p ≤0.140%. 17. A steel sheet according to claim 1 , wherein said composition comprises 0.060%≤Ti p ≤0.40%, titanium Ti p under the form of precipitated carbides, nitrides, carbonitrides, being 0.060%≤Ti p ≤0.110%. 18. A steel sheet according to claim 1 , wherein said composition comprises 0.090%≤Nb≤0.40%, niobium Nb p under the form of precipitated carbides, nitrides, carbonitrides, being 0.090%≤Nb p ≤0.200%. 19. A steel sheet according to claim 1 , wherein said composition comprises 0.20%≤Mo≤1.8%, molybdenum Mo p under the form of carbides being 0.20%≤Mo p <0.35%. 20. A steel sheet according to claim 1 , wherein a mean size d of said carbides, nitrides, carbonitrides is comprised between 7 and 20 nanometers. 21. A steel sheet according to claim 1 , wherein at least 75% of said carbides, nitrides, carbonitrides, is located in intragranular position. 22. A steel sheet according to claim 1 further comprising at least one element chosen among 0.0005%≤B≤0.010%; Ni≤2%; and Cu≤5%. 23. A steel sheet according to claim 4 further comprising at least one element chosen among 0.0005%≤B≤0.010%; Ni≤2%; and Cu≤5%.