JP2008144059A - Water-based rust-prevention coating - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water-based rust-prevention coating capable of delaying the corrosion of zinc used as a rust prevention pigment to suppress the generation of white rust and keep the rust prevention action over a long period. <P>SOLUTION: The invention provides a water-based rust-prevention coating containing a rust prevention pigment composed mainly of zinc and a binder bonding the rust prevention pigment to form a coating film. The rust-prevention pigment composed mainly of zinc is incorporated with at least one kind of magnesium and magnesium compounds to delay the corrosion of zinc by sacrifice corrosion preventing action and further incorporated with aluminum. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a water-based rust preventive paint containing zinc as a rust preventive pigment, and more particularly to a water-based rust preventive paint capable of suppressing the generation of white rust due to zinc corrosion and maintaining the anticorrosion effect for a long period of time.

Conventionally, in order to prevent corrosion of metal substrates, particularly iron substrates, rust preventive paints containing zinc or aluminum having sacrificial anticorrosive action on iron substrates as rust preventive pigments have been used.
And as such a rust-proof coating (corrosion-proof coating composition), zinc powder or zinc powder and aluminum powder are used, and a water-soluble chromium compound is used as a binder for forming a coating film by combining these rust-proof pigments. Some use a water-soluble chromium compound and boric acid (see Patent Document 1).
Japanese Patent Publication No. 60-50228

  However, zinc, which is a rust preventive pigment, corrodes early due to its sacrificial anticorrosive action, and the corrosion product is white rust and dissolves in large quantities, so that the properties of the base material are impaired and the corrosion is fast and the anticorrosive effect is sustained for a long time Therefore, aluminum is used in combination, and the corrosion of zinc is delayed to suppress the occurrence of white rust. However, if the amount of aluminum added is too large, it is more basic than zinc white rust. There is a problem that red rust of iron, which is a material, is generated, and if the amount is too small, the elution of white rust cannot be suppressed, and even when the optimum amount is added, the generation of white rust cannot be controlled sufficiently.

  Therefore, the technical problem to be solved by the present invention, that is, the object of the present invention is to prevent the occurrence of white rust by delaying the corrosion of zinc, which is a rust preventive pigment, and to prevent water-based protection that can maintain the anticorrosive action for a long time. It is to provide rust paint.

  The invention according to claim 1 is an aqueous rust preventive paint comprising a rust preventive pigment containing zinc as a main component and a binder that binds the rust preventive pigment to form a coating film. The problem is solved by the fact that the rust pigment contains at least one of magnesium and a magnesium compound.

  The water-based anticorrosive paint according to claim 2 is the invention according to claim 1, wherein the anticorrosive pigment containing zinc as a main component contains aluminum to solve the above problem.

  The water-based anticorrosive paint according to claim 3 is the invention according to claim 1 or claim 2, wherein the content of at least one of the magnesium and the magnesium compound is 0 as the magnesium content with respect to the zinc content. The said subject is solved by being 0.05 to 10.0 weight%.

  The water-based anticorrosive paint according to claim 4 is the invention according to any one of claims 1 to 3, wherein the main component of the binder is a water-soluble or hydrolyzable amino group-containing silane coupling agent. This solves the above-mentioned problem.

In the invention according to any one of claims 1 to 4, the water-based anticorrosive paint according to claim 5 solves the above-mentioned problem by the fact that the binder contains colloidal silica.
Here, “the main component of the binder is a water-soluble or hydrolyzable amino group-containing silane coupling agent” includes the case where the binder is only an amino group-containing silane coupling agent.

  Since the water-based rust preventive paint of the present invention includes a rust preventive pigment mainly composed of zinc and a binder that binds the rust preventive pigment to form a coating film, the binder binds a rust preventive pigment such as zinc. At the same time, a coating film is formed on the substrate surface to protect the substrate surface. Since zinc has a higher ionization tendency than an iron base, it is corroded as zinc ions prior to the iron base material due to sacrificial anticorrosive action, thereby preventing the iron base material from being corroded.

  In the invention according to claim 1, since the rust preventive pigment containing zinc as a main component contains at least one of magnesium and a magnesium compound having a higher ionization tendency than zinc, magnesium is magnesium ions prior to zinc. Corrosion occurs and the magnesium compound is also dissociated into magnesium ions, so that the corrosion of zinc can be delayed to suppress the occurrence of white rust and the anticorrosion effect can be maintained for a long period of time.

The water-based rust preventive paint according to claim 2 is the invention according to claim 1, wherein the rust preventive pigment containing zinc as a main component contains aluminum, that is, the rust preventive pigment includes zinc, magnesium and magnesium as main components. Since it contains at least one kind of compound and aluminum, aluminum having a higher ionization tendency than zinc corrodes prior to zinc, so that the corrosion of zinc is delayed and the occurrence of white rust is suppressed.
At that time, magnesium containing ionization tendency larger than aluminum is included, so magnesium can corrode before aluminum and can delay the corrosion of aluminum. The effect of the invention according to item 1 can be remarkably improved.

  The water-based anticorrosive paint according to claim 3 is the invention according to claim 1 or claim 2, wherein the content of at least one of the magnesium and the magnesium compound is 0 with respect to the content of zinc as the amount of magnesium. By setting the content to 0.05 to 10.0% by weight, the effect of magnesium described above can be maximized.

  The water-based anti-corrosion paint according to claim 4 has a water-soluble or hydrolyzable amino group-containing silane cup in which the main component of the binder is the water-soluble or hydrolyzable silane cup in addition to the effects of the invention according to any one of claims 1 to 3. By being a ring agent, the water-soluble or hydrolyzable amino group-containing silane coupling agent in the paint has a void by chemically or physically bonding the substrate and the anti-rust pigment when the paint is baked. In order to form a coating film, the chances of these anticorrosive pigments coming into contact with each other increase, and the sacrificial anticorrosive action of the anticorrosive pigments is improved. For example, from an iron substrate such as a chain component or fasteners such as bolts and nuts It is possible to exert a long-term anticorrosive action such as improving adhesion to the resulting substrate.

  Furthermore, in the water-based anticorrosive paint according to claim 5, in addition to the effect exhibited by the water-based anticorrosive paint composition according to any one of claims 1 to 4, when the binder contains colloidal silica, The sacrificial anticorrosive action of zinc can be maintained for a long time, and the anticorrosive effect can be improved.

  The aqueous rust preventive paint of the present invention comprises a rust preventive pigment containing zinc as a main component and a binder that binds the rust preventive pigment to form a coating film. And at least one kind of magnesium compound, and further containing aluminum, and can suppress the occurrence of white rust by delaying corrosion of zinc by sacrificial anticorrosive action and can maintain the anticorrosive action for a long time. The specific embodiment may be any one.

That is, there is no restriction | limiting in particular about the form of zinc, aluminum, and magnesium as a rust preventive pigment used by this invention, For example, forms, such as a powdery body and a granular body, can take.
When used as a powder or granule, it can take the shape of a sphere, flake, rod or the like. Particularly, when a flake is used, the flakes exhibit excellent dispersibility in the paint. Since it adheres to a to-be-coated article so that it may overlap, a covering effect is high and an anticorrosion effect can be heightened.
The flaky powder or granule is obtained by spreading treatment with a ball mill, an attritor or the like, and preferably has an average aspect ratio (average major axis / average thickness) of 10 or more.

  Zinc is the main component of the rust preventive pigment used in the present invention and has a higher ionization tendency than iron, and therefore can effectively exhibit the sacrificial anticorrosive action on the iron base material. Any zinc alloy may be used.

Magnesium has a higher ionization tendency than zinc and corrodes before zinc, so it delays the corrosion of zinc and suppresses the occurrence of white rust, and also maintains the sacrificial anticorrosive effect of zinc for a long time. A magnesium alloy may be used as long as it has such an action.
Examples of the magnesium compound used in the present invention include magnesium carbonate, magnesium nitrate, magnesium chloride, magnesium sulfate, magnesium oxide, magnesium hydroxide, magnesium ethoxide, and magnesium methoxide.

In the present invention, at least one of these magnesium and magnesium compounds, that is, magnesium or magnesium compound is used alone, or two or more of magnesium and magnesium compounds are used in combination. The content in the medium is preferably 0.05 to 10.0% by weight with respect to the zinc content as the magnesium content, and if it is less than 0.05% by weight, the occurrence of white rust is sufficiently suppressed. If it exceeds 10.0% by weight, the sacrificial anticorrosive effect by zinc cannot be exhibited effectively.
In addition, when using 2 or more types from magnesium and a magnesium compound, the amount of magnesium in the said antirust coating is the sum of these amounts of magnesium.

Since aluminum has a higher ionization tendency than zinc, it corrodes before zinc and delays the corrosion of zinc to suppress the occurrence of white rust. There may be.
Further, the anticorrosive pigment used in the present invention contains magnesium which has a higher ionization tendency than aluminum, and magnesium can corrode before aluminum to delay the corrosion of aluminum, so the combined use of magnesium and aluminum Can further delay the corrosion of zinc.

  The binder binds a rust preventive pigment and forms a coating film on the substrate surface to protect the substrate surface. The binder of the present invention is a water-soluble or hydrolyzable amino group-containing silane coupling agent. When the coating is used, the formed coating film has excellent adhesion to the substrate, and since there are many voids and direct contact between the rust preventive pigments can be achieved, the sacrificial anticorrosive action of the rust preventive pigments can be increased. it can.

Examples of such water-soluble or hydrolyzable amino group-containing silane coupling agents include N-2 (aminoethyl) 3-aminopropylmytyldimethoxysilane, N-2 (aminoethyl) 3-aminopropyltrimethoxysilane, N-2 (aminoethyl) 3-aminopropyltrimethoxysilane, 3-aminopropyltrimethoxysilane, 3-aminopropyltriethoxysilane, 3-triethoxysilyl-N- (1.3.dimethylbutylitene) propylamine N-phenyl-3-aminopropyltrimethoxysilane, N- (vinylbenzyl) -2-aminoethyl-3-aminopropyltrimethoxysilane and the like, and one or more of these compounds may be used. good.
Colloidal silica is suspended in water or a water-soluble organic solvent, and is preferably 1% by weight or more of the zinc content.

  The water-based rust preventive paint of the present invention can be obtained by mixing and stirring a rust preventive pigment together with a binder according to a conventional method. At that time, water, alcohol solvents, cellosolve solvents, glycol solvents, paint additives such as pigments, dyes, dispersants, antifoaming agents may be added. Water may be added.

  Moreover, a rust preventive pigment may add each component separately, or a part or all of components may be mixed beforehand, and may be mixed with water and a solvent, and may be added as a slurry form.

  Examples of such solvents include glycol solvents such as propylene glycol and ethylene glycol, alcohol solvents such as ethanol and isopropanol, cellosolv solvents such as butyl cellosolve, and the like.

Hereinafter, the present invention will be described in detail with reference to Examples and Comparative Examples.
In accordance with the formulations shown in Table 1, predetermined components were mixed and stirred in predetermined amounts to produce the aqueous rust preventive paint of the present invention.

Using the obtained water-based anticorrosive paint, chain parts (pin link plate, roller link plate, bush, roller, pin) are coated as an object to be coated by the dip spin method, baked at 180 ° C. for 60 minutes, and a thickness of 10 μm. A chain component (pin link plate, roller link plate, bush, roller, pin) on which a coating film was formed was obtained.
This chain component (pin link plate, roller link plate, bush, roller, pin) was subjected to a salt spray test for 500 hours and 1000 hours in accordance with “JIS-Z 2371”, and the white generated by visual inspection. The amount of rust and the occurrence of red rust were observed. The results are shown in Table 1 by symbols. The meaning of each symbol is noted below Table 1.

Comparative Examples 1-3
In accordance with the formulation shown in Table 2, a predetermined component was mixed and stirred in a predetermined amount to obtain an aqueous rust preventive paint. About the obtained coating material, the test similar to Example 1 was done, and the result is shown in Table 2. The meaning of each symbol is noted below Table 2.

In Tables 1 and 2, * 1 to * 4 are as follows.
* 1: Zinc flakes made into a slurry with propylene glycol.
* 2: Aluminum paste “AW-620” manufactured by Asahi Kasei Corporation.
* 3: Thickener “PRIMAL RM2020NPR” (polyurethane type) manufactured by ROHM AND HAAS.
* 4: Sannopco antifoaming agent (silicone or acrylic).
* 5: Salt spray test (SST)
* 6: State of white rust generated after the salt spray test. ○ There is little white rust, and there is much white rust.
* 7: Red rust after salt spray test. ○ No red rust, x red rust.
Moreover, the compounding quantity of Table 1-Table 2 is a weight part.

In Examples 1 to 4 in which aluminum and magnesium or a magnesium compound were used in combination with zinc shown in Table 1, the amount of white rust generated was small in the 500 hour salt spray test, and red rust was not generated. .
On the other hand, in Comparative Example 1 containing no magnesium or magnesium compound, although no occurrence of red rust was observed, the amount of white rust generated was large because zinc corrosion due to sacrificial anticorrosive action was fast.
As is clear from these results, the addition of magnesium or a magnesium compound suppresses the occurrence of white rust by delaying the corrosion of zinc by the sacrificial anticorrosive action while maintaining the sacrificial anticorrosive action by zinc, and at the same time sacrificing the zinc. It keeps the anticorrosive action for a long time.

  In Examples 5 to 8 in which aluminum and magnesium or a magnesium compound and colloidal silica were used in combination with zinc, the amount of white rust generated was small and no red rust was generated even in a 1000 hour salt spray test.

  In addition, content of magnesium with respect to zinc content, ie, the ratio of magnesium with respect to zinc, from the test result of Examples 1-18 and the test result of Comparative Examples 1-3, the ratio of magnesium with respect to zinc is 0.05. If it is more than wt%, the white rust inhibiting effect and anticorrosion effect by magnesium are improved, but from the results of Comparative Examples 1 to 3 in which the ratio of magnesium to zinc is 11.0 wt%, aluminum In the case of using together, if it exceeds 10% by weight, the sacrificial anticorrosive effect due to zinc cannot be exhibited effectively, so the ratio of magnesium to zinc is preferably 10.0% by weight or less.

As described above in detail, the aqueous rust preventive paint of the present invention significantly suppresses the occurrence of white rust by including at least one of magnesium and a magnesium compound in a rust preventive pigment mainly composed of zinc. In addition, the sacrificial anticorrosive action can be sustained over a long period of time. By using a combination of aluminum and a water-soluble or hydrolyzable amino group-containing silane coupling agent as a binder, the white rust is suppressed and the sacrificial anticorrosive action is achieved. Sustainability can be further increased, and the effect is enormous.

Claims (5)

In a water-based rust preventive paint comprising a rust preventive pigment mainly composed of zinc and a binder that binds the rust preventive pigment to form a coating film,
The water-based rust preventive paint, wherein the rust preventive pigment containing zinc as a main component contains at least one of magnesium and a magnesium compound.   The water-based anticorrosive paint according to claim 1, wherein the zinc-based anticorrosive pigment contains aluminum.   The content of at least one of the magnesium and the magnesium compound is 0.05 to 10.0% by weight with respect to the zinc content as the magnesium content. Water-based anti-corrosion paint.   The water-based anticorrosive paint according to any one of claims 1 to 3, wherein the main component of the binder is a water-soluble or hydrolyzable amino group-containing silane coupling agent.   The water-based rust preventive paint according to any one of claims 1 to 4, wherein the binder contains colloidal silica.