AT512230B1 - POLISH - Google Patents

Abstract

A polishing agent for polishing a surface of a metal strip, characterized in that the polishing agent contains an aqueous dispersion which has an abrasive solid with particle sizes of 70-500 nm, in particular with a particle size of 120 nm, the dispersion containing as the abrasive solid iron oxide, characterized in that the dispersion has a pH of 0-1.

Description

Description: The invention relates to a polishing agent for polishing a surface of a metal strip, wherein the polishing agent contains an aqueous dispersion which has an abrasive solid with particle sizes of 70-500 nm, in particular with a particle size of 120 nm, the dispersion being an abrasive solid Contains iron oxide. Moreover, the invention relates to methods for polishing a metal strip, wherein the metal strip is pre-polished in a first step with an abrasive medium having a granule-carrying structure, in a further step a polishing agent containing a dispersion is applied between a polishing medium carrier and the surface to be polished for fine polishing wherein the dispersion has an abrasive solid with particle sizes of 70-500 nm, in particular with a particle size of 120 nm, the dispersion containing iron oxide.

The documents WO99 / 23189 A1, WO02003031333A2, WO02007074437A2, US2005109980 A1, US2005178070 A1 and US2004197263 A1 relate to polishing agents which are present as aqueous dispersions and contain abrasive solids.

Typically, when polishing surfaces of metal strips in a first step, abrasive media having a granule-carrying structure, such as e.g. Sandpaper, for use. With these grinding media, the metal strips are roughly polished. In a further step, usually diamond dispersions with particles larger than 1 μ are used as polishing agents. These dispersions are, however, very costly to buy. The disadvantage here is that with such dispersions only small areas can be polished, whereby the polishing process is very complicated. It is therefore an object of the present invention to find a polishing agent which is suitable for polishing large areas, as well as to simplify the polishing process and to make it less expensive.

This object is achieved according to the invention with a polishing agent of the type mentioned, that the dispersion has a pH of 0-1.

The invention makes it possible in a simple way to polish large areas of metal strips, for example steel strips. Due to the different particle sizes of the abrasive solid in the aqueous dispersion, a desired friction can be generated on the surface of the steel strip. As a result, roughnesses in the nm range can be compensated. Depending on the nature of the surface, particle sizes of the abrasive solid may be selected which result in an optimum result of polishing the metal strip, e.g. a particle size of 120 nm. Due to the smaller particle sizes, a better distribution of the polishing agent on the steel strip can be made and thus larger areas can be treated. In addition, the dispersions according to the invention are substantially more cost-effective than the diamond dispersions described in the prior art.

A preferred variant of the invention is that the polishing agent contains a Dispersion with nitric acid. This combination of acid and metal oxide keeps the dispersant in equilibrium.

According to a further advantageous variant of the invention, the polishing agent has a solids content of 0.1-10%, preferably 1-4%. On the basis of the solids content, the friction of the polishing agent on the strip surface can be influenced. Depending on the surface properties of the strip to be polished, solid contents can be selected which lead to an optimum result of polishing the steel strip. Solid contents between 0.1 - 10% give good results. Solid contents of 1 to 4% lead to optimum results of the fine polishing of steel strips.

The above object can be achieved according to the invention by a method of the type mentioned by the fact that the applied dispersion has a pH of 0-1. [0009] An advantageous development of the invention provides that as a polish medium carrier a cloth and / or a Rag and / or a sponge and / or paper and / or a brush ver¬ is used. This provides great flexibility in the selection of polish carriers and thus extends the range of application of the polish carrier.

According to a further advantageous variant of the invention polishing agents are used as described above in the inventive method.

The invention will be explained in more detail with reference to an exemplary embodiment: [0012] All information on ranges of values in representative examples should be understood to include any and all subregions thereof, e.g. the indication 1 to 10 should be understood to include all sub-ranges, starting from the lower limit 1 and the upper limit 10, i. all subregions begin with the lower limit 1 or greater and end at the upper limit of 10 or less, e.g. 1 to 1.7 or 3.2 to 8.1 or 5.5, to 10.

According to the method according to the invention can be prepolished to a polishing of Metall¬ band, this in a first step with a sandpaper with granule-carrying structure. Subsequently, in a second step, the metal strip is subjected to another polishing, the so-called fine polishing. This fine polishing is carried out with a dispersion which contains at least one finely divided abrasive solid with a particle size between 70-500 nm, but preferably 120 nm. The abrasive particles used are preferably metal oxide particles. For example, the abrasive particles may be formed by iron oxide and / or other metal oxides such as copper oxide.

In addition, the dispersion has a pH of 0-1 and preferably contains nitric acid.

The solids content of the dispersion is between 0.1% - 10% but preferably between 1% and 4%.

The dispersion can be applied by means of a cloth, as a polish carrier on the metal strip. By, for example, rotating movements of the polishing agent carrier, the abrasive particles of the polishing agent are moved relative to the surface of the metal strip, resulting in a material removal from the surface of the strip to be polished.

The embodiment describes a possible embodiment of erfindungs¬gemäßen solution, it being noted at this point that the invention is not limited to the specifically described embodiment thereof.

Claims (6)

Claims 1. A polishing composition for polishing a surface of a metal strip, the polishing composition comprising an aqueous dispersion comprising an abrasive solid having particle sizes of 70-500 nm, in particular having a particle size of 120 nm, the dispersion containing as the abrasive solid iron oxide, characterized the dispersion has a pH of 0-1. 2. Polishing agent according to claim 1, characterized in that the dispersion contains nitric acid. 3. polishing agent according to any one of the preceding claims, characterized in that it has a solids content of 0.1 - 10%, in particular 1 -4%. 4. A method for polishing a metal strip, wherein the metal strip is pre-polished in a first step with an abrasive medium having a granule-carrying structure, in a further step a polishing agent containing a dispersion is applied between a polishing medium carrier and the surface to be polished for fine polishing, wherein the dispersion has an abrasive solid with particle sizes of 70-500 nm, in particular with a particle size of 120 nm, the dispersion containing iron oxide, characterized gekenn¬zeichnet that the applied dispersion has a pH of 0 -1. 5. The method according to claim 4, characterized in that a cloth and / or a cloth and / or a sponge and / or paper and / or a brush is used as the polishing agent carrier. A method according to claim 4 or 5, characterized in that a polishing agent according to any one of claims 1 to 3 is used as the polishing agent. No drawings for this