TH20885B - "Anti-corrosion action of steel coated metal with aluminum, zinc or alloy coatings of these substances" - Google Patents

Abstract

The invention is related to the surface action method of zinc or zinc alloys. And aluminum The method consists of a phase of action at the surface with an aqueous solution with a pH below 3 and contains a complex formed by at least one group of metal oxoions combined with a minimum. A heteroionic metal oxoion group was selected from a group consisting of molybdate, tangstate and vanadate. It consists of phosphorus (V), aluminum (III), silicon (IV), manganese (II), manganese (IV), zirconium (IV), titanium (IV), tin (IV), serium (III) and nickel (II), and with the resins. It is resistant to the film acid that is well compatible with the ion used.

Claims (9)

1. Methods of surface action of zinc or of alloys of zinc and aluminum. Single stage of such surface action with an aqueous solution of less than 3 pH and containing complexes. Resulting from at least one group of metal oxoion combined with at least one group of heteroionic metal oxoion was chosen from a group containing molybdate Statues and vanadate heteroions were selected from a group containing phosphorus (V), aluminum (III), silicon (IV), manganese (II), manganese (IV), zirconium (IV), titanium (IV), tin ( IV) Cerium (III) and nickel (II), and with film acid-resistant resins. Compatible Well with the ion that was selected to use Where the resin is stabilized in a suspension by serfactants. Non-charged 2. Method for claim 1 where the resin contains acrylate One or more 3. Method for claim 2 where the resin is composed of acrylate One or more Were selected from a group containing methyl methacrylate, n-butyl acrylate, hydroxyethyl acrylate, and glycerol propoxypyacrylate. 4. Method for any one of the aforementioned claims Where the resin is obtained from Polymerization of the least A group of unsaturated monomers in aqueous medium with At least one unsaturated Fatty Alcohol Aloxylate. With unsaturated parts as a reagent 5. Method according to any one of the aforementioned claims Where the resin also contains Acid-resistant crosslinking agent 6. Method according to claim 5, where an acid-resistant cross-linking agent Will be stimulated by acid 7. Method for any one of the aforementioned claims. Where the resin Used as a film with a dry film thickness of less than 3 μm. 8. Method according to claim 7, where the dry film thickness is less than 2 μm. 9. Means according to any of the aforementioned claims. Where metal oxoion is molybdate 1 0. Method according to one of the aforementioned claims Where the heteroion is phosphorus 1. 1. Method according to any one of the aforementioned claims Where the proportion of metal to The resin in the solution is from 0.005 - 0.5 mol of metal oxoion per kilogram. Of solid resin 1 2. Method according to claim 11 where the proportion of metal to resin is from 0.02 - 0.12 mol of metal oxoion per kilogram of resin solid 1. 3. The claim method 12, where the proportion of metal to resin is from 0.03 to 0.06 mol of metal oxoion per kilogram of resin solid 1. 4. Method for any one of the aforementioned claims Where the mole ratio of heteroionics to metal oxoionics in the complex is between 1: 5 and 1: 4 1. 5. Method according to any one of the aforementioned claims. Where the solution is, at least One fluorite compound 1 6. Method for any one of the aforementioned claims. Where substances disperse in the water of Resins with complexes Will be applied to the surface PH below 2.5 1 7. Means according to any one of the aforementioned claims. Where the surface is coated 55Al / Zn 1 8. Galvanized steel That has been done by means of only one of the above claims 1 9. Dispersion used in the method of one of the above claims on which the disperse consists of: The least One group of metal oxoionics combined at least A group of Heteroionic metal oxoion was selected from a group consisting of molybdate and vanadate.Heteroion was selected from a group containing phosphorus (V). Aluminum (III), silicon (IV), manganese (II), manganese (IV), zircon (IV), titanium (IV), tin (IV), serium (III), and nickel (II) in aqueous medium at lower pH. 3 such ones contain acid-resistant resins that cause The film is compatible with non-charged servants distributed in it 2. 0. Dispersion according to claim 19 that also contains Acid-resistant crosslinking agent