TH49374B - Methods for controlling surface defects in sheet metal treated - Google Patents

Abstract

DC60 (08/06/47) The method for controlling defects on the surface of the type is described in the specification on the plastered steel strip. An aluminum-zinc-silicon alloy has been revealed, the method consists of applying heat treatment to a strip. Steel in a smelting furnace for heat treatment (5) and hot-dip putty to the strip in a tub containing the molten alloy later (6), and therefore by plastering the alloy onto the strip. Get a lecture Characteristics by controlling the concentration of (1) strontium or (2) calcium or (3) strontium and calcium. In a bath containing at least 2 parts per million of the molten alloy, the method for controlling the surface defects of the type is described in the specification on the plastered steel strip. An aluminum-zinc-silicon alloy has been revealed, the method consists of applying heat treatment to a strip. Steel in a smelting furnace for heat treatment (5) and hot-dip putty to the strip in a tub containing the molten alloy later (6), and therefore by plastering the alloy onto the strip. Get a lecture Characterized by controlling the concentration of (1) strontium or (2) calcium or (3) strontium and calcium. In a basin containing at least 2 parts per million of the molten alloy.

Claims (6)

1. The method of surface flaw control of the types described above on the steel strip which has been puttyed. With aluminum-zinc-silicon alloy It consists of different steps of moving the steel plate sequentially through the smelting furnace. For heat treatment and A tub containing an alloy Aluminum-zinc-silicon liquid; and (a) applying heat treatment to steel strips in smelting furnaces. For heat treatment and (b) hot-dip putty to the strip in a basin containing the molten alloy, and therefore alloy is applied to the strip, and this method is described by The Regulates the concentration of (1) strontium or (2) calcium or (3) strontium and calcium. In a basin containing at least 2 parts per million of the molten alloy 2. The method is defined in claim 1, where, in the circumstances in which the molten metal basin has Strontium, but without calcium. This method consists of concentration control. Of strontium In a basin containing the molten metal in the range of 2-4 parts per million 3. The method is defined in claim 2 where the strontium concentration is 3 parts per million. 4. The method is defined in claim 1, where in the circumstances in which the basin containing the molten metal has Calcium but without strontium This method consists in controlling the calcium concentration in a basin containing the molten metal to a range of 4-8 ppm. 5. The method is defined in claim 4. The concentration of calcium is 6 parts per million. 6. Methods that are defined in any claim of the claim. Previous rights Which consists of Control the concentration of Roncium and calcium in a basin of molten metal In the range of 2-12 parts per million 7. How is defined in any claim of the claim? Previous rights Which consists of Control the concentration of (1) strontium or (2) calcium or (3) strontium and calcium in a bath containing the molten alloy. Shall not be greater than 50 parts per million 8. Methods defined in any claim of the claim Previous rights which aluminum-zinc-silicon alloy There will be no deliberately vanadium and / or chromium elements in alloys. 9. Methods defined in any of the claims. Previous rights which aluminum-zinc-silicon alloy There will be magnesium 1 0. The method defined in claim 7 in which the aluminum-zinc-silicon metal will have a The concentration of magnesium is less than 1% 1. 1. The method defined in any claim of the claim. Previous rights Which consists of Control the concentration of (1) strontium or (2) calcium or (3) strontium and calcium in a bath containing the molten alloy. By specifying Least concentration of Strontium and / or calcium in aluminum are used to form alloys. Aluminum-Zinc-Silicon for a bath containing molten alloy 1 2. The methods defined in any claim of Claims 1 through 8 include amalgamation: Control the concentration of (1) strontium or (2) calcium or (3) strontium and calcium in a bath of molten alloy. By intermittent infusion of strontium and / or calcium in Required quantity To maintain the concentration at the desired concentration in a bath containing the alloy Melted at intervals of 1 3. Methods defined in any claim of the claim. Previous rights Which the resulting steel strip Get plastered with metal Aluminum-zinc-silicon alloy Will be a strip with the smallest metallic shin 1 4. How to control the flaw on the surface of the treated type. Described above, on a steel strip, which is plastered with glitter Smallest metal with aluminum-zinc-silicon alloy Including steps Of the sequential movement of the steel strip through the smelting furnace for the thermal method and the alloy bath Molten aluminum-zinc-silicon; and (a) applying heat treatment to steel strips in smelting furnaces. For heat treatment and (b) hot-dip putty to the strip in a basin containing the molten alloy, and therefore alloy is applied to the strip, and this method is described by Control of the concentration of (1) strontium, or (2) calcium, or (3) strontium and calcium. In a basin containing at least 2 parts per million of the molten alloy. 5. How to control the flaw on the surface of the treated type. Described above, on a steel strip sheet that has been treated with alloy. Aluminum-zinc-silicon, where the aluminum-zinc-silicon alloy contains strontium and / or calcium, and does not contain vanadium and / or chromium, following the steps. Of moving the steel strips respectively Through a smelting furnace for heat treatment and a sink containing metal Mixed molten aluminum-zinc-silicon; and (a) applying heat treatment to steel strips in a smelting furnace. For heat treatment and (b) hot-dip putty to the strip in a basin containing the molten alloy, and therefore alloy is applied to the strip, and this method is described by Control of the concentration of (1) strontium, or (2) calcium, or (3) strontium and calcium. In a basin containing at least 2 parts per million of the molten alloy. 6. The steel strip, which has been treated with metal, is manufactured. With the method that is defined in the supposition Any right of the claim Previous rights