Removable anodising agent, in particular for local anodic oxidation of metal surfaces

The invention claimed is: 1. A removable anodising agent for anodic oxidation of a metal surface comprising: an anodising compound comprising: an inner layer and an outer adhesion promoting layer oriented towards the metal surface, the outer adhesion promoting layer having a composition different from the inner layer; an ion conducting medium containing an ion conducting component and an adhesion component, the adhesion component being in an amount selected for increasing adhesion of the anodizing agent to the metal surface prior to anodic oxidation; and one or a plurality of cohesion agents in sufficient concentration in order to allow a substantially residue-free removal of the anodising agent from the anodically oxidised metal surface; and an electrically conductive planar structure in contact with the anodising compound as the cathode; wherein the adhesion component contains a lactic acid; and wherein the anodising compound has a proportion of the ion conducting medium to the one or the plurality of cohesion agents adjusted relative to a composition and a nature of the metal surface for removal of the anodising compound including the outer adhesion-promoting layer for the substantially residue-free removal of the anodising agent from the anodically oxidised metal surface. 2. Anodising agent according to claim 1 , characterized in that the cohesion agent is a water-soluble polymer or the cohesion agents are water-soluble polymers. 3. Anodising agent according to claim 2 , wherein the water-soluble polymer(s) is (are) selected from the group consisting of a polyvinyl alcohol; a polysaccharide; and a polysaccharide derivative. 4. Anodising agent according to claim 3 , wherein the polysaccharide derivative is selected from the group consisting of a cellulose derivative, a partially hydrolysed polyvinyl ester, a polyacrylate, a polyacrylic acid, a polyvinylpyrrolidone, a polymethacrylate, a polyamine, and a polyether. 5. Anodising agent according to claim 1 , characterized in that the electrically conductive planar structure is selected from among a metal weave, a metal film, a metal net, a metal grid, a perforated sheet, a textile fabric in carbon fibers, a conductive polymer film, a metalised plastic and a metalised plastic film. 6. Anodising agent according to claim 5 , further comprising: a carrier, which is in contact with the electrically conductive planar structure; wherein the carrier is selected from a weave, a fleece, a felt, a metal film and a polymer film; and wherein the anodising compound further contains one or a plurality of humectants to keep the anodising compound moist. 7. Anodising agent according to claim 1 , further comprising a carrier, which is in contact with the electrically conductive planar structure. 8. Anodising agent according to claim 7 , characterized in that the carrier is selected from a weave, a fleece, a felt, a metal film and a polymer film. 9. Anodising agent according to claim 1 , characterized in that the anodising compound further contains one or a plurality of humectants to keep the anodising compound moist. 10. Anodising agent according to claim 1 , wherein the ion conducting medium further contains at least one of a phosphoric acid, a sulfuric acid, a glycolic acid, an oxalic acid, a tartaric acid, and a citric acid. 11. Anodising agent according to claim 1 wherein anodising compound has the proportion of the ion conducting medium to the one or the plurality of cohesion agents adjusted relative to the composition and the nature of the metal surface for self-adhesion of the anodizing agent to the metal surface prior to and during anodic oxidation of the metal surface. 12. An anodising system comprising: a metal surface; and an anodising agent disposed on the metal surface; wherein the anodising agent comprises an anodising compound and an electrically conductive planar structure, the anodising compound being disposed between the metal surface and the electrically conductive planar structure, the anodising compound being in contact with the electrically conductive planar structure, and the electrically conductive planar surface being disposed separate from the metal surface; wherein the anodising compound comprises: an ion conducting medium containing an ion conducting component and an adhesion component, the adhesion component being in an amount selected for adhesion of the anodising agent to the metal surface; and one or a plurality of cohesion agents in sufficient concentration for substantially residue-free removal of the anodising agent from the metal surface following anodic oxidation of the metal surface; wherein the adhesion component is a lactic acid; and wherein the anodising compound comprises an inner layer and an outer adhesion promoting layer oriented towards the metal surface, the outer adhesion layer having a composition different from the inner layer. 13. The anodising system of claim 12 , wherein following removal of the anodizing agent from the metal surface, a thickness of a layer of the anodising compound remaining on the metal surface is an average amount of ≤1 μm. 14. The anodising system of claim 12 , wherein the anodising compound has a proportion of the ion conducting medium to the one or the plurality of cohesion agents adjusted relative to a composition and a nature of the metal surface for removal of the anodising compound including the outer adhesion-promoting layer for a substantially residue-free removal of the anodising agent from the anodically oxidised metal surface.