KR101242899B1 - Plating painting steel sheet - Google Patents

Abstract

The present invention relates to a plated coated steel sheet, the plated layer is formed on one surface, the coating layer is coated with a coating material having a plating inhibiting component is formed so that the plated layer is not formed on the other surface. The present invention can shorten the coating process, can be used as a steel plate of various characteristics depending on the material to be plated or painted, and also easy to remove the coating layer has the advantage that can be utilized as a single-side hot-dip galvanized steel sheet.

Description

Plating painting steel sheet

The present invention relates to a plated coating composite steel sheet, and more particularly, to a plated coating composite steel sheet in which a plating layer is formed on one surface and only a coating layer is formed on the other surface without a plating layer.

Iron is the most common metal on earth and can be obtained easily and inexpensively. Such iron is mostly used as a steel sheet in the form of a thin plate for various purposes, and since it is easily corroded in the air, a plating process is performed to form a film on the iron surface for the purpose of preventing corrosion and rust.

In the plating process, zinc using the sacrificial method is most frequently used, and zinc-aluminum alloy plating and aluminum plating are also widely used.

Plating methods are electroplating and hot-dip plating.

The electroplating method is mainly limited to zinc plating due to the problem of efficiency, so most plating products are subjected to hot dip plating. However, when the steel sheet is hot-plated, both sides of the steel plate are plated, so that even if one side is not required for plating, both sides are plated and waste is generated.

Accordingly, an object of the present invention is to solve the above-described problems, to provide a plated coating composite steel sheet so that the plated layer is formed on one side and only the coating layer is formed on the other side so that the plated layer can be formed on only one side. will be.

According to a feature of the present invention for achieving the above object, the present invention is a plating layer is formed on one surface, the coating layer is formed on the other surface without a plating layer.

The coating layer includes a silicone polyester epoxy resin, a butylate melamine resin, a black pigment, a mica, and a silica component.

The coating layer has a dry coating thickness of 2 ~ 10㎛.

The paint forming the coating layer is 30 to 55 parts by weight of a silicone polyester epoxy resin based on the total weight of the paint; 5-15 weight part of butyrate melamine resin; 10 to 30 parts by weight of iron oxide black pigment; 5-15 parts by weight of mica; 1 to 5 parts by weight of silica; 0.3 to 2 parts by weight of polyacrylate resin; And the remaining amount of the solvent to be 100 parts by weight of the total weight of the paint.

According to the present invention, it is possible to prevent the plating layer from being formed by forming a coating layer on one surface of a steel sheet using a paint mainly composed of a silicone polyester epoxy resin. Therefore, a plated layer is formed on one surface, and a plated composite steel sheet in which only a coating layer is formed on the other surface can be manufactured.

In this case, the adhesion between the iron and the coating layer is excellent and does not require a separate pretreatment for painting. Therefore, there is an effect that can shorten the coating process.

In addition, the coated coating steel sheet of the present invention can be removed by the mechanical polishing. Therefore, there is an effect that can be utilized as a steel sheet of various characteristics.

1 is a schematic view showing a procedure for producing a plated coated steel sheet of the present invention.
(A) is a photograph which shows the coating layer of the comparative example 1, (b) is a photograph which shows the coating layer of Example 1. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail.

In the plating coating composite steel sheet of the present invention, a plating layer is formed on one surface, and a coating layer coated with a paint having a plating inhibiting component is formed on the other surface so that the plating layer is not formed.

Specifically, before the plating process, the coating is performed on a surface which is not desired to be plated, and the plating process is performed so that only the unpainted surface is plated.

The plating process adopts a hot dip plating process. In the case of hot-dip plating, the steel sheet is immersed in the molten plating solution and then released. Therefore, the coating layer should not be immersed in the molten plating solution, and heat resistance that can withstand high temperature heat is also required. Heat resistance means a property that can withstand high temperature heat, and the hot-dip plating process is required because the high temperature heat treatment is performed to maintain the mechanical properties of the steel sheet and the reducing atmosphere of the steel sheet surface before plating.

Of course, the coating may be performed after the plating process to form a coating layer on the plating layer. In this case, it is effective to secure corrosion resistance, but if the coating layer alone is sufficient to prevent corrosion resistance, the cost should be lost. In addition, the coating layer is inferior in adhesion with the plating layer rather than iron, there is also a problem that a separate pretreatment process before the coating is added to improve this.

Therefore, a plating layer is formed on one surface by a painting and plating sequence as shown in FIG. 1, and a coating plating composite steel sheet having a coating layer is formed on the other surface without a plating layer.

The components of the coating layer include silicone polyester epoxy resins, butyrate melamine resins, black pigments, mica and silica.

Specifically, the coating layer is formed of a paint comprising a silicone polyester epoxy resin, a butylate melamine resin, a black pigment, a mica, and a silica.

Here, the main component of the coating layer is a silicone polyester epoxy resin. The Si component of the silicone polyester epoxy resin lowers the surface tension of the coating film to prevent the materials to be plated from sticking to the coating layer. Therefore, it is possible to manufacture a coated plating composite steel sheet having a coating layer without a plating layer.

The paint forming the coating layer is based on the total weight of the paint.

30 to 55 parts by weight of silicone polyester epoxy resin, 5 to 15 parts by weight of butylate melamine resin, 10 to 30 parts by weight of iron oxide black pigment, 5 to 15 parts by weight of mica, 1 to 5 parts by weight of silica and the total weight of the paint It contains a residual amount of solvent to make 100 parts by weight. At this time, the remaining amount of the solvent to be 100 parts by weight of the total weight of the paint is 10 to 20 parts by weight.

The paint further contains a poly acrylate resin for pigment dispersion. The poly acrylate resin is included in the range of 0.3 to 2 parts by weight based on the total weight of the paint.

The coating material is a silicone polyester epoxy resin excellent in blocking the molten plating liquid and a melamine resin for curing and an inorganic pigment providing heat resistance, and is excellent in preventing the adhesion of the molten plating liquid.

The coating layer has a dry coating thickness of 2 to 10 µm. If the dry coating thickness is less than 2 μm, the effect of preventing the plating is insufficient, and thus it is difficult to achieve the desired purpose. If the dry coating thickness is more than 10 μm, the adhesion of the paint is poor, and peeling occurs when the roll passes through the plating process.

The reason for limitation of function and content of the constituents of the paint will be described.

1.silicone polyester epoxy resin

Silicone polyester epoxy resin is a main component of paint. Silicone polyester epoxy resins are excellent in heat resistance, excellent in slip properties, and excellent in stopping the molten plating solution.

The silicone polyester epoxy resin has an epoxy functional group, a polyester reactor and a silicon reactor. It is excellent in solvent resistance and adhesiveness by an epoxy functional group, excellent in bendability by a polyester reactor, and excellent in slip property and heat resistance by a silicon reactor.

Silicone polyesters are resins produced by the condensation reaction of bisphenol A with epichlorohydrin.

More specifically, the silicone polyester is composed of aminosilane [NH ₂ (CH) ₂ NH-R-SI (OCH ₃ ) ₃ ], glycidyl alkyl silane [() in a resin produced by the condensation reaction of bisphenol A and epichlorohydrin. CH ₂ -CH-O) CH ₂ OR-Si (CH ₃ ) ₃ ], an amine and at least one selected from organosilanes capable of ring-opening reaction with a basic acid are reacted to synthesize a preeprylmer which is an intermediate of polyepoxy.

Afterwards, polyepoxypolyols (including -OH group) were ring-opened and reacted with monomers such as high, polyalcohols such as bisphenol A modified ethylene oxide, and general polyhydric alcohols (EG, 1.6-HD, NPG, DEG), a basic acid, sebacic acid, HHPA, TPA, PhAn to prepare a polyester reaction by one or more selected from.

If the silicone polyester epoxy resin is less than 30 parts by weight, the heat resistance is lowered. If the silicone polyester epoxy resin is more than 55 parts by weight, the dispersion of the pigment is worsened and curing hardening occurs.

2. Butyrate melamine resin

Butyl melamine resin is a cured resin.

Butyl melamine resin uses a butylate melamine resin of 60% solids to maximize the reactivity and crosslinking density.

If the butylate melamine resin is less than 5 parts by weight, the coating film is hardly cured. If the butylate melamine resin is more than 15 parts by weight, the coating film becomes excessively hard due to excessive curing, resulting in poor paintability and workability.

3.Inorganic Pigment

Inorganic pigments are included to impart the color of the coating, to improve the heat resistance and hardness of the coating and to control the gloss. Inorganic pigments include black pigment, mica and silica.

The black pigment uses iron oxide black pigment. The iron oxide black pigment is intended to give the color of the paint and to improve heat resistance. Iron oxide is a black pigment mainly composed of iron oxide. If the iron oxide black pigment is less than 10 parts by weight, the heat resistance is lowered, and if it exceeds 30 parts by weight, the workability and workability are deteriorated.

Mica is contained as a extender pigment that enhances heat resistance and solids of paint. Mica uses micro mica. If the mica is less than 5 parts by weight, the heat resistance is lowered, and if it exceeds 15 parts by weight, the paintability is poor.

Silica is contained as a quencher for reducing the glossiness of a coating film. Silica acts as a matting agent because of its large surface area per unit weight and its relatively high oil absorption. Glossiness of a coating film is adjusted according to content of silica, and when a silica is less than 1 weight part, glossiness is high, workability | liquidity and hardness of a coating film fall, and when it exceeds 5 weight part, workability worsens.

4. Polyacrylate Resin

Polyacrylate resin is used as a dispersant to disperse the pigments of the paint. If the polyacrylate resin is less than 0.3 part by weight, the pigment is not dispersed well and sedimentation of the paint occurs, and if it is 2 parts by weight or more, the compatibility with the silicone polyester epoxy resin becomes worse, resulting in appearance defects such as craters. .

5. Solvent

A solvent is for melt | dissolving the polyester epoxy resin, melamine resin, and inorganic pigment which were mentioned above. If the solvent is less than 10 parts by weight, it is difficult to secure the fluidity of the coating (paint), so that it is difficult to secure a uniform coating film thickness. At this time, the content of the solvent is the remaining amount of the solvent to be 100 parts by weight, the total weight of the paint.

On the other hand, the method of manufacturing a plated composite steel sheet is a coating step of forming a coating layer by coating the above-described paint on one surface of the steel sheet, and forming a plating layer by performing the plating process by depositing the steel plate in a molten plating bath after forming a coating layer It includes a plating step.

In the coating step, the coating is applied to the steel sheet so that the dry coating thickness is 2 ~ 10㎛.

The coating of the paint is carried out before the heat treatment step of the plating step. This is to allow the paint to cure during the heat treatment process. Moreover, it is also possible to apply | coat to another plating process after apply | coating paint. However, in the case of other plating process, the surface temperature of the steel sheet should be heated to 200 ℃ or more for complete curing.

In the plating step, plating is generally performed by immersing a steel plate in a plating bath to coat the plating composition on the surface.

The paint is applicable to various plated steel sheets such as hot dip galvanized steel sheet, alloyed hot dip galvanized steel sheet, zinc-aluminum alloy coated steel sheet, and aluminum plated steel sheet.

The manufactured coating plated composite steel sheet can be manufactured with a steel plate having various characteristics depending on the properties of the plating and coating materials, and since the coated surface is formed without a plating layer, only the coating layer is formed, thereby improving adhesion and shortening the coating process. Has an effect.

On the other hand, the plated coated composite steel plate can be used as a one-side molten plated steel sheet after removing the coating layer. In this case, the coating layer is removed by a chemical method using chemicals or a mechanical method using polishing.

However, chemical methods are not only difficult to apply selectively to paints, but also dangerous work. Therefore, it is reasonable to polish mechanically. Mechanical polishing uses brush or belt abrasive to continuously remove paint from the steel sheet. In this case, the coating layer is easily removed by polishing due to the characteristics of the paint on which the coating layer is formed.

Hereinafter, the present invention will be described in detail by the following examples and comparative examples.

However, the following Examples and Comparative Examples are only illustrative of the present invention, the present invention is not limited by the following Examples and Comparative Examples.

Test Example 1 Plating Retardance and Peelability Test of Coating Layer

After coating one surface of the steel sheet with a coating component and a coating film thickness (or coating amount) as shown in Table 1, the plated composite steel sheet was manufactured by immersing in a hot dip bath. Thereafter, physical property evaluation results such as plating retardation of the coating layer and peelability by mechanical polishing are shown in Table 1 below.

[Evaluation Criteria for Plating Retardance of Coating Layer]

(Circle): There is no adhesion of a molten plating liquid to a coating layer.

(Triangle | delta): A part of adhesion of a molten plating liquid exists in a coating layer.

X: The adhesion of the molten plating solution to the coating layer is on the front side.

[Coating layer peelability evaluation criteria] _ measurement of peeling degree by mechanical polishing

(Circle): A coating layer peels on the whole surface.

(Triangle | delta): The coating layer does not peel partly.

X: The coating layer is not peeled off as a whole.

Paint composition
Paint layer
Film thickness
or
Coating amount Coating layer plating
Low Paint layer
Peelability Remarks MgO 10g, Water Glass 10g, NaOH 4g
H ₃ BO ₃ 6g, TiO ₂ 3g 50g / ㎡ △ X Comparative Example 1 Mg (OH) ₂ 14g, K ₂ SiO ₂ 6g, KOH 6g
H ₃ BO ₃ 5g, TiO ₂ 4g 50g / ㎡ △ X Comparative Example 2 MgO 2.5g, Mg (OH) ₂ 10.5g, Na ₂ OSiO ₂ 4g
NaOH 5g, H ₃ BO ₃ 7g, Ti (OH) ₄ 6g 50g / ㎡ △ X Comparative Example 3 35 parts by weight of silicone polyester epoxy resin
Butylate melamine resin 10 parts by weight
Iron oxide black pigment 30 parts by weight
10 parts by weight of micro mica
4 parts by weight of silica
1 part by weight of polyacrylate resin dispersant
Solvent 10 parts by weight 1 탆 △ ○ Comparative Example 4 35 parts by weight of silicone polyester epoxy resin
Butylate melamine resin 10 parts by weight
Iron oxide black pigment 30 parts by weight
10 parts by weight of micro mica
4 parts by weight of silica
1 part by weight of polyacrylate resin dispersant
Solvent 10 parts by weight 4 탆 ○ ○ Example 1 35 parts by weight of silicone polyester epoxy resin
Butylate melamine resin 10 parts by weight
Iron oxide black pigment 30 parts by weight
10 parts by weight of micro mica
4 parts by weight of silica
1 part by weight of polyacrylate resin dispersant
Solvent 10 parts by weight 10 탆 ○ ○ Example 2 35 parts by weight of silicone polyester epoxy resin
Butylate melamine resin 10 parts by weight
Iron oxide black pigment 30 parts by weight
10 parts by weight of micro mica
4 parts by weight of silica
1 part by weight of polyacrylate resin dispersant
Solvent 10 parts by weight 15 탆 △ △ Comparative Example 5 45 parts by weight of silicone polyester epoxy resin
15 parts by weight of butylate melamine resin
Iron oxide black pigment 15 parts by weight
10 parts by weight of micro mica
5 parts by weight of silica
0.5 parts by weight of polyacrylate resin dispersant
9.5 parts by weight of solvent 4 탆 ○ ○ Example 3 25 parts by weight of silicone polyester epoxy resin
15 parts by weight of butylate melamine resin
Iron oxide black pigment 30 parts by weight
15 parts by weight of micro mica
5 parts by weight of silica
2 parts by weight of polyacrylate resin dispersant
8 parts by weight of a solvent 4 탆 △ ○ Comparative Example 6 35 parts by weight of silicone polyester epoxy resin
15 parts by weight of butylate melamine resin
Iron oxide black pigment 10 parts by weight
15 parts by weight of micro mica
5 parts by weight of silica
2 parts by weight of polyacrylate resin dispersant
Solvent 18 parts by weight 6 μm ○ ○ Example 4 40 parts by weight of silicone polyester epoxy resin
20 parts by weight of butylate melamine resin
Iron oxide black pigment 15 parts by weight
10 parts by weight of micro mica
4 parts by weight of silica
1 part by weight of polyacrylate resin dispersant
Solvent 10 parts by weight 6 μm ○ △ Comparative Example 7 60 parts by weight of silicone polyester epoxy resin
Butylate melamine resin 10 parts by weight
Iron oxide black pigment 10 parts by weight
5 parts by weight of micro mica
5 parts by weight of silica
0.5 parts by weight of polyacrylate resin dispersant
9.5 parts by weight of solvent 6 μm △ ○ Comparative Example 8 45 parts by weight of silicone polyester epoxy resin
Butylated melamine resin 3 parts by weight
Iron oxide black pigment 15 parts by weight
15 parts by weight of micro mica
5 parts by weight of silica
1 part by weight of polyacrylate resin dispersant
Solvent 16 parts by weight 6 μm △ ○ Comparative Example 9

As shown in Table 1, when the coating layer having a coating film thickness of 2 ~ 10㎛ on the surface of the steel sheet using the coating of the present invention it can be seen that it is possible to manufacture the coating plating composite steel sheet with excellent plating resistance have. Moreover, it was confirmed that the peelability of the coating layer by mechanical polishing was also excellent.

In Comparative Examples 1 to 3, the effect of preventing the adhesion of the molten plating solution to the coating layer was insufficient, and the coating thickness was thick and hard, so that it was difficult to finally remove the coating layer.

In particular, in Comparative Example 1, there were many inorganic components of the water glass system, so that the peelability of the coating layer was low.

In Comparative Example 6, the content of the silicone polyester epoxy resin was low, and there was partial adhesion of the molten plating solution to the coating layer.

In Comparative Example 7, the content of the butylate melamine resin was high, so that it was difficult to remove the coating layer. This is because the curing is excessive and the coating film becomes hard.

In Comparative Example 8, the content of the silicone polyester epoxy resin was high, and there was partial adhesion of the molten plating solution to the coating layer. This is because of a phenomenon in which the dispersion of paint is poor and the curing is insufficient.

In Comparative Example 9, the content of the butyrate melamine resin was high, and the plating retardation of the coating layer was poor. This is because hardening of the coating film was not performed well.

For reference, the polyacrylate resin dispersant of Table 1 means a polyacrylate resin.

The photograph which showed the coating layer of the comparative example 1 is shown by (a) of FIG. 2, (b) is the photograph of the coating layer of Example 1 (A is coating material (painting layer), B is plating). It is a substance (plating solution).)

As shown in FIG. 2, in Comparative Example 1, the adhesion of the molten plating liquid to the coating layer was on the entire surface, and in Example 1, only the coating layer was formed without adhesion of the molten plating liquid to the coating layer.

According to the results of the experiment, the plated layer is formed on one surface and the plated coating composite steel plate is formed only the coating layer is not formed on the other surface is possible. In addition, the coating layer of the plated coated steel sheet can be easily removed by mechanical polishing.

Therefore, the present invention can shorten the coating process, it can be seen that the steel sheet of various characteristics can be manufactured.

It is to be understood that the invention is not limited to the disclosed embodiments, but is capable of many modifications and alterations, all of which are within the scope of the appended claims. It is self-evident.

Claims (4)

delete One surface is formed with a plating layer,
On the other side, only the coating layer is formed without a plating layer,
The coating layer
Plating coating composite steel sheet comprising a silicone polyester epoxy resin, butyrate melamine resin, black pigment, mica, silica component. The method according to claim 2,
The coating layer
Plating coating composite steel sheet, characterized in that the dry coating thickness is 2 ~ 10㎛. The method according to claim 2 or 3,
The paint forming the coating layer is
About paint total weight
30 to 55 parts by weight of silicone polyester epoxy resin;
5-15 weight part of butyrate melamine resin;
10 to 30 parts by weight of iron oxide black pigment;
5-15 parts by weight of mica;
1 to 5 parts by weight of silica;
0.3 to 2 parts by weight of polyacrylate resin; And
Residual solvent to make 100 parts by weight of the total weight of the paint
Plating coating composite steel sheet comprising a.

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