TH42852A3 - Zn coated steel material, Zn coated steel plate and painted steel plate which are excellent in corrosion resistance. And methods of producing the same thing - Google Patents

Abstract

The DC60 (17/03/43) provided is Zn coated steel material and Zn coated steel plate and painted steel plate. That is excellent in corrosion resistance and the same manufacturing method Especially A coated steel material is provided which is excellent in corrosion resistance. And methods of producing the same thing Which steel material was The glaze is characterized in a manner that It has a layer of Zn-alloy coating that contains 1- 10 wt% of Mg, 2 - 19 wt% of Al and 0.01 - 2 wt% of Si, which Mg and Al responds to Mg (%) + Al (%). ) Less than or equal to 20% the equilibrium which will be composed of Zn and the contaminated Can not be avoided On the surface of the steel plate And has the structure of the coating layer of Intermetallic compounds of Mg or the like. As a base metal treatment, it is desirable to be provided with The Ni-coated layer is also prepared as a steel plate. Which was coated with Zn, which was prepared on the coating layer with a layer of chromate film as an intermediate layer, and next with a layer of organic coating as the top layer and the Zn coated steel sheet that Excellent in corrosion resistance on chromate film coatings that are made By coating with a resin chromate bath and drying at 10 - 300 mg / sq m. Is a chromium metal Is the top layer Layer of coating Zn - alloy in accordance with This further invention may contain one or more of 0.01 - 1 wt% of In, 001 - 1 wt% of Bi, and 1 - 10 wt% of Sn prepared. Next is the painted steel plate. Which exists on the Zn alloy coating layer, the treatment film layer of base metal with 100 parts by weight of resin as the availability of solids and 0.2 - 50 parts by weight of tannin or tannic acid and The organic coating layer on the film layer of base metal treatment is desirable layer, the next Zn-alloy coating layer has 0.01 - 2 wt% of Si, the next layer of treatment of base metal has 10 - 500 parts by weight of Fine grain silica It is the available amount of solid matter, organic coating layer. Was assembled as a secondary layer of the floor Which contains anti-rust pigments and a painted over coat. And the Ni coating layer is contained under the Zn - alloy coating layer. The next prepared is a painted steel plate with a film treatment layer of the base metal containing 100 parts by weight of the resin. It is the available quantity of solids and 0.I - 3000 parts by weight of the silane coupling agent. And the organic coating layer on the film layer of the Treatment of base metals Is the top layer The Zn-alloy coating layer can contain 0.01 - 2 wt% of Si, and the further treatment film layer of the base metal can have one or both of 1 - 200 parts by weight of silica-fine-grain and 0.1 -. 1000 parts by weight of corrosion fluoride Is the available quantity of solids. Furthermore, the structure exists where the phase of the cofounded metal compound The primary diameter of 1 micron or more is distributed in a Zn-alloy coating layer at an available content of 0.1 - 50 wt%, which is Zn-coated steel material and Zn-coated steel plate and Painted steel plate That is excellent in corrosion resistance and the same manufacturing method Especially A coated steel material is provided which is excellent in corrosion resistance. And methods of producing the same thing Which steel material was The glaze is characterized in a manner that It has a layer of Zn-alloy coating that contains 1- 10 wt% of Mg, 2 - 19 wt% of Al and 0.01 - 2 wt% of Si, which Mg and Al responds to Mg (%) + Al (%). ) Less than or equal to 20% the equilibrium which will be composed of Zn and the contaminated Can not be avoided On the surface of the steel plate And has the structure of the coating layer of Intermetallic compounds of Mg or the like. As a base metal treatment, it is desirable to be provided with The Ni-coated layer is also prepared as a steel plate. Which was coated with Zn, which was prepared on the coating layer with a layer of chromate film as an intermediate layer, and next with a layer of organic coating as the top layer and the Zn coated steel sheet that Excellent in corrosion resistance on chromate film coatings that are made By coating with a resin chromate bath and drying at 10 - 300 mg / m2, chromium metal. Is the top layer Layer of coating Zn - alloy in accordance with This further invention may contain one or more of 0.01 - 1 wt% of In, 001 - 1 wt% of Bi, and 1 - 10 wt% of Sn prepared. Next is the painted steel plate. Which exists on the Zn alloy coating layer, the treatment film layer of base metal with 100 parts by weight of resin as the availability of solids and 0.2 - 50 parts by weight of tannin or tannic acid and The organic coating layer on the film layer of base metal treatment is desirable layer, the next Zn-alloy coating layer has 0.01 - 2 wt% of Si, the next layer of treatment of base metal has 10 - 500 parts by weight of Fine grain silica It is the available amount of solid matter, organic coating layer. Was assembled as a secondary layer of the floor Which contains anti-rust pigments and a painted over coat. And the Ni coating layer is contained under the Zn - alloy coating layer. The next prepared is a painted steel plate with a film treatment layer of the base metal containing 100 parts by weight of the resin. It is the available quantity of solids and 0.I - 3000 parts by weight of the silane coupling agent. And the organic coating layer on the film layer of the Treatment of base metals Is the top layer The Zn-alloy coating layer can contain 0.01 - 2 wt% of Si, and the further treatment film layer of the base metal can have one or both of 1 - 200 parts by weight of silica-fine-grain and 0.1 -. 1000 parts by weight of corrosion fluoride Is the available quantity of solids. Furthermore, the structure exists where the phase of the cofounded metal compound 1 mu m or more is distributed in the Zn-alloy coating layer at 0.1 - 50 wt% content.

Claims (2)

1. Zn coated steel material which is excellent in corrosion resistance, which is characterized by having a layer of Zn-alloy coating containing 2-19 wt% of Al, 1-10 wt% of Mg and 0.01-2 wt% of Si and Zn balance and unavoidable contaminants are on the surface of the steel material. 2. Zn coated steel material which is excellent in corrosion resistance. In accordance with claim 1, it is characterized that Mg and Al in the Zn-alloy coating layer meet the following formulation requirements: Mg (%) + Al (%) less than or equal to 20%. 3. Zn coated steel material which is excellent in corrosion resistance. In accordance with claim 1, which is characterized by that One or more of 0.01- 1 wt% of In, 0.01-1 wt% of Bi and 1-10 wt% of Sn, which are further compounded. 4. Zn coated steel material is excellent in corrosion resistance. In accordance with claim 1, which is characterized by that One or more of 0.01- 0.5% of Ca, 0.01-0.2% of Be, 0.01-0.2% of Ti, 0.1-1.0% of Cu, 0.01-1.0% of Ni, 0.01- 0.3% of Co, 001-0.2. % Of Cr, 0.01-0.5% of Mn, 0.01-3.0% of Fe and 0.01-0.5% of Sr were further composed of Zn-alloy coating components at the total content of outer elements. Above all these elements are preserved not to more than 0.5% and among them Pb is limited to no more than 0.1 wt% and Sb not more than 0.1 wt% 5. Zn coated steel material is excellent in reliability. Corrosion resistance In accordance with claim 1, which is characterized by that The coating layer has a metallic structure of the primary crystalline Mg2Si phase, MgZn2 phase and Zn phase distributed in the matrix of the ternary eutectic structures of Al / Zn / MgZn2. It is coated with Zn that is excellent in corrosion resistance. In accordance with claim 1, which is characterized by that The coating layer has a metal structure of the primary crystalline Mg2Si phase, the MgZn2 phase and the A1 phase distributed in the matrix. Al / Zn / MgZn2 eutectic structure 7. Zn coated steel material is excellent in corrosion resistance. In accordance with claim 1, which is characterized by that The layer of coating has Metal structure of the primary crystalline Mg2Si phase, MgZn2 phase and Zn phase and A1 phase distributed in the matrix of the eutectic structures of A1 / Zn / MgZn2. 8. Coated steel material. With Zn which is excellent in corrosion resistance In accordance with claim 1, which is characterized by that The layer of coating has Metal structure of the primary crystalline Mg2Si phase, Zn phase, and A1 phase distributed in the matrix. The eutectic structure of A1 / Zn / MgZn2 9. Zn coated steel material is excellent in corrosion resistance. In accordance with claim 1, which is characterized by that Ni coating layers are molded as layers. Which is underneath for the Zn-alloy coating layer 1 0. Zn-coated steel material is excellent in corrosion resistance. And the ability to form by machine In accordance with claim 1, which is characterized in such a way that the phases of the intermetallic compound of the -Mg system have at least 1 μm iron diameter, are distributed in layers of Zn coating. - Alloy with content 0.1-50 Vol% 1 1. Zn coated steel material which is excellent in corrosion resistance. And the ability to form by machine In accordance with claim No. 10, which is characterized in a manner that The inter-metal phase of which Mg is one or more of the -Mg-Si system, -Mg-Zn system, -Mg-Sn system, -Mg-Fe system, -Mg-Ni system, -Mg-A1 system and -Mg-Ti system 1 2. Zn coated steel material that is excellent in corrosion resistance. And the ability to form by machine In accordance with claim No. 10, which is characterized in a manner that The Ni-coated layer is formed at 0.2-2 g / m 2 as a base metal treatment for the Zn-alloy coating layer 1. 3. Zn-coated steel plate is excellent in resistance. Corrosion In accordance with claim 1, which is characterized in a manner that It has a film of Chromate resin at 10-300 mg / m2 is a chromium metal that has been formed by using And drying of chromate resins with a water soluble chromium compound. Capable of Reducing chromium {CR3 + / (CR3 + Cr6 +} x 100 (wt%) that is not greater than 70 (wt%) is the top layer on the layer. Of Zn-alloy coatings, they are adjusted to the coexistence of phosphoric acid and water soluble chromium compounds. Where the H3PO4 / CrO3 ratio (as chromic acid) is not less than 1 and the ratio of H3PO4 / Cr6 + (as chromic acid) is not greater than 5 and will be mixed with Organic resin To make the ratio of organic resin / CrO3 (As chromic acid) Not less than 1 1 4. Painted steel plate. It is excellent in corrosion resistance in accordance with claim 1, which is characterized in such a way that It has a layer of chromate film. The middle layer on the Zn-alloy layer and the organic film top layer 1-100 m is placed on the middle layer of chromate film 1. 5. Painted steel plate. It is excellent in corrosion resistance in accordance with claim 14, which is characterized by the fact that the organic film is a film of Thermosetting resin coating 1 6. Painted steel plate. It is excellent in corrosion resistance of molded sections and minor loads on the environment. In accordance with claim 1, which is characterized in a manner that It has an intermediate layer containing resin containing solid content and 0.2-50 parts by weight of tannins or tannic acid per 100 parts by weight of resin. It is on the top layer of Zn-alloy coating and has a layer of organic film as the top layer. 1 7. Painted steel plate. It is excellent in corrosion resistance of molded sections and minor loads on the environment. In accordance with claim 1, which is characterized in a manner that It has an intermediate layer containing solid resin and 0.1 to 3000 parts by weight of silane coupling agent per 100 parts by weight of resin on. A layer of Zn-alloy coating and an organic film layer on top. 1 8. Painted steel plate. It is excellent in corrosion resistance of molded sections and minor loads on the environment. Consistent with claim 16, which characterizes in such a way that the organic film layer is 1-100 m 1 m thick 9. Painted steel plate. It is excellent in corrosion resistance of molded sections and minor loads on the environment. In accordance with Clause 16, which characterizes in a manner that The layer in the middle is further extended by 10-500 parts by weight of fine silica grains to the existing solids, 2.0. Painted steel plates. It is excellent in corrosion resistance of molded sections and minor loads on the environment. In accordance with claim (17), which characterizes in a manner that The layer in the middle is continued with at least 1-2000 parts by weight of fine silica grains and 0.1-1000 parts by weight of corrosive fluoride into existing solids. 1. Painted steel plate It is excellent in corrosion resistance of molded sections and minor loads on the environment. In accordance with claim (16), where the organic film layer will consist of the undercoat. Which contains anti-rust pigments And the class of Top coat in color 2 2. Methods for producing Zn-alloy coated steel material with Zn-alloy coating containing 1-10 wt% of Mg, 2-19 wt% of A1, 0.01-2 wt% of Si and The balance of Zn and impurities is inevitable. It is on the surface of the steel material, the method of producing the steel material. The Zn coating, which is excellent in corrosion resistance, is characterized by the temperature setting of the quench bath in the range of not less than 450 ํC and not more than 650 C. At a cooling rate of not less than 0.5 ํ / sec.