Abstract: A rolled steel sheet suitable for enameling, having a carbon profile, defined by a gradient in the C-level from a level Csurface at at least one surface of the sheet, to a level Cbulk in the bulk of the sheet, Cbulk being higher than Csurface, and with Cbulk higher than 0 and lower than 0.08 wt %, Csurface between 0 and 0.015 wt %, Al between 0.012 wt % and 0.07 wt %, Mn between 0.12 wt % and 0.45 wt % and O lower than 0.01 wt % and wherein the depth where the C-level reaches (Cbulk+Csurface)/2, is higher than 75 ?m.

Abstract: A rolled steel sheet suitable for enamelling, having a carbon profile, defined by a gradient in the C-level from a level Csurface at at least one surface of the sheet, to a level Cbulk in the bulk of the sheet, Cbulk being higher than Csurface, and with Cbulk higher than 0 and lower than 0.08 wt %, Csurface between 0 and 0.015 wt %, Al between 0.012 wt % and 0.07 wt %, Mn between 0.12 wt % and 0.45 wt % and O lower than 0.01 wt % and wherein the depth where the C-level reaches (Cbulk+Csurface)/2, is higher than 75 ?m.

Abstract: The present invention provides a steel sheet or part suitable for enamelling. The steel sheet or part is coated with a coating including polymer in which particles of non-oxide ceramic are homogeneously dispersed. A process for producing an enamelled steel sheet or part which has a reduced firing temperature and reduced time compared with conventional firing temperatures and times is also provided. An enamelled steel sheet or part are also provided.

Abstract: The present invention is related to a rolled steel sheet suitable for enamelling, said sheet having a carbon profile, defined by a gradient in the C-level from a level Csurface at at least one surface of the sheet, to a level Cbulk in the bulk of the sheet, Cbulk being higher than Csurface, and with: Cbulk higher than 0 and lower than or equal to 0.08 wt %, Csurface between 0 and 0.015 wt %, Al between 0.012 wt % and 0.07 wt %, Mn between 0.12 wt % and 0.45 wt %, O lower than 0.01 wt % and optionally: Cu between 0.025 wt % and 0.1 wt %, S between 0.008 wt % and 0.04 wt %, Ca between 0.0005 wt % and 0.005 wt %, the balance being Fe and incidental impurities, and wherein the depth where the C-level reaches Cbulk+Csurface)/2, is higher than 75 ?m. The invention is equally related to a method for producing said steel sheet.

Abstract: The invention relates to a steel sheet or part whose composition is suitable for enamelling, and which is coated with a coating consisting of a matrix of polymer in which particles of non-oxide ceramic are homogeneously dispersed. It also relates to the use of this coated steel sheet or part for producing an enamelled steel sheet or part, and to a process for producing an enamelled steel sheet or part allowing a decrease of firing temperature and time compared with conventional firing temperatures and times.

Abstract: The present invention is related to a method for producing an enamelled steel substrate, said method comprising the steps of: providing a steel substrate, applying to a surface of said steel substrate a solution comprising a solvent, a polymer precursor, and at least one metal or metal oxide, said metal or metal oxide being suitable for promoting the adhesion of an enamel layer to the surface of the steel substrate, curing said steel sheet, thereby removing said solvent, and forming an organic layer comprising said at least one metal or metal oxide, applying to said organic layer, an enamel layer, followed by a firing step, to obtain the enamelled steel substrate.

Abstract: The present invention relates to a process for the enameling of aluminum or aluminum alloy surfaces, in particular containing a relatively high amount of Mg, Cu, or both, which is characterized by the use of a vitreous enamel containing CuO.

Abstract: The present invention relates to self-opacifying enamel frit compositions that can be used for the enamelling of aluminium or aluminium alloys.