The present invention relates to an article comprising at least one glass-ceramic substrate, in particular a plate, intended, for example, to cover or receive at least one heating element, said substrate exhibiting, in at least one zone, a surface roughness such that the characteristic dimensions of the patterns forming said roughness are between 2 and 100 μm. The present invention also relates to an advantageous process for producing said substrate.

A final layer of a multi-layer of thin deposit and lacquer layers of a decorative faceted functional stone formed by 10 to 35% of nano/colloidal silica, optionally nano/colloidal alumina, 30 to 50% of encapsulated aluminium flakes in grain size of 15-80 μm, 2 to 10% of Fe3O4 in grain size of 3-50 μm, and 10 to 40% of polyisocyanate-hardened mixture of epoxy and polyether resin, and a method for increasing the opacity and hardness of a multi-layer of thin deposit and lacquer layers of a decorative faceted functional stone by applying this final layer.

A method of preparing a glass, glass-ceramic or ceramic substrate for coating that includes: treating a primary surface of a carrier to form a carrier bonding surface, the carrier having a thickness of at least 2 mm; disposing a carrier surface modification layer on the carrier bonding surface; bonding the carrier to at least one substrate having a substrate bonding surface and a thickness from about 0.1 mm to about 3.5 mm, the bonding conducted by temporarily joining the carrier at the carrier surface modification layer to the substrate at the substrate bonding surface. Further, the treating and disposing steps are conducted such that an adhesion energy between the carrier surface modification layer and the substrate bonding surface is from 50 to 1000 mJ/m.sup.2 after the bonding step.

A final layer of a multi-layer of thin deposit and lacquer layers of a decorative faceted functional stone formed by 10 to 35% of nano/colloidal silica, optionally nano/colloidal alumina, 30 to 50% of encapsulated aluminium flakes in grain size of 15-80 m, 2 to 10% of Fe3O4 in grain size of 3-50 m, and 10 to 40% of polyisocyanate-hardened mixture of epoxy and polyether resin, and a method for increasing the opacity and hardness of a multi-layer of thin deposit and lacquer layers of a decorative faceted functional stone by applying this final layer.