A method is disclosed for treating an anodized metal surface. According to the method, polynuclear clusters comprising aluminum oxide hydroxide are applied to the anodized metal surface.

A method of manufacturing an interference coating on the surface of an aluminum alloy or aluminum alloys product comprising anodizing and electrochemical dyeing with use of alternating current consisting in that, the electrolyte used during electrochemical dyeing comprises copper (II) sulfate (IV) in an amount from 1 to 100 g/L, boric acid in the amount of 1 to 40 g/L and tartaric acid in the amount of 0.1 to 20 g/L.

The present invention relates to a mouse pad comprising a flat metal alloy sheet having a surface that has been treated with a ceramic and polymer coating to provide the surface with a desired friction co-efficient. A method of manufacture of the mousepad is also provided.

The present invention provides a bright aluminum alloy which has high mechanical properties and in which the occurrence of uneven color is also suppressed to a high degree when an aluminum alloy die-cast material thereof that includes tungsten is subjected to anodization treatment. Also provided is a bright aluminum alloy die-cast material that is manufactured using said bright aluminum alloy. The aluminum alloy pertaining to the present invention includes 0.5-3.0% by mass of Mn, 0.1-2.0% by mass of Mg, 0.01-1.0% by mass of W, and 0.05-2.0% by mass of Si, the balance being aluminum and unavoidable impurities.

A process for the making of metallic product with biocidal properties is disclosed, and first comprises anodizing a product having at least one metallic surface (e.g. aluminum, steel) using a controlled current density to form pores on the surfaces with controlled spatial density and depth. The process also comprises contacting the anodized metallic surfaces with a first biocidal solution before sealing the pores. Preferably, the metallic surfaces can be contacted again with the first biocidal solution after the sealing step. A method for reactivating biocidal properties of the metallic products is also disclosed, and comprises contacting again the biocidal product with a second biocidal solution. Preferably, the second solution is less concentrated than the first solution for safety sake. The invention provides a simpler, quicker, cheaper and improved process for treating or reactivating the metallic surfaces in order to obtain a metallic product having superior and enduring biocidal properties.

Examples of an anti-fingerprint enclosure for an electronic device have been described. In an example, the enclosure comprises an aluminum alloy substrate; a sealing layer deposited on a surface of the aluminum alloy substrate; and a magnesium fluoride sol-gel derived film deposited on the sealing layer, wherein the magnesium fluoride sol-gel derived film exhibits a refractive index of from about 1.36 to about 1.44.

A process for producing a coated lightweight metal substrate, in particular, an aluminium substrate, by a wet-chemical application of a coating composition to the lightweight metal substrate and thermally curing the coating composition is provided. A coating material composition is also described that is formed from a sol-gel material.

A method for sealing pores includes: providing an object which includes a substrate formed of a metal or alloy of the metal, and a passivation layer formed on the substrate, the passivation layer being formed of metal oxide and having a plurality of pores; immersing the object as a cathode and an anode in a solution containing metal cations and anions; providing an electric current between the anode and the object with an electric current density across the object being less than 0.5 A/dm.sup.2, such that the metal cations and anions in the solution undergo a redox reaction on the passivation layer; and sealing the pores of the passivation layer with a metallic compound formed by the redox reaction of the metal cations and the anions in the solution.

A method of growing a hierarchically structured anodized film to an aluminum substrate including growing a Phosphoric Acid Anodizing (PAA) film layer to an aluminum substrate and growing a multiple of Tartaric-Sulfuric Acid Anodizing (TSA) film layers under the Phosphoric Acid Anodizing (PAA) film layer.

The present invention relates to a mouse pad comprising a flat metal alloy sheet having a surface that has been treated with a ceramic and polymer coating to provide the surface with a desired friction co-efficient. A method of manufacture of the mousepad is also provided.