JPH07137198A - Corrosion-inhibitive coating - Google Patents

Abstract

PURPOSE:To provide a corrosion-inhibitive coating with a coating layer with improved corrosion inhibition, scratch resistance, cohesion, non-viscosity, water repellence and abrasion resistance, formed on the surface of a metal base. CONSTITUTION:A corrosion-inhibitive coating consists of a coating layer of polytitanocarbosilane formed on the surface of a metal base and a coating layer of fluororesin or a coating layer of a resin composition containing fluororesin and heat-resistant plastics formed on the former coating layer. An alternative corrosion inhibitive coating is composed of a coating layer of plastics or a coating layer of a resin composition containing fluororesin and heat- resistant plastics formed on the surface of a metal base and a coating layer of polytitanocarbosilane formed on the former coating layer.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anticorrosion coating used for rubber vulcanizing molds which are required to have corrosion resistance, kitchen appliances which are required to have non-adhesiveness and abrasion resistance.

[0002]

2. Description of the Related Art Conventionally, chrome-plated steel has been mainly used as a mold used for vulcanizing rubber.
However, since the chrome-plated steel mold is corroded by the sulfuric acid generated during rubber vulcanization,
In addition to the poor dimensional accuracy of the mold, the vulcanized rubber molded product becomes difficult to release from the mold.

Even if coating with an epoxy resin, a fluororesin or the like having excellent chemical resistance is carried out in order to enhance the corrosion resistance and the releasability of the rubber vulcanizing mold, the effect of improving the corrosion resistance against sulfuric acid is not improved. Insufficient, and depending on the type of coating resin, there are problems that the releasability is poor, the hardness is insufficient and the scratch resistance is poor, or the coating layer is easily peeled off. On the other hand, kitchen appliances such as inner pots and frying pans of automatic rice cookers are also coated with fluororesin, but the coating film has chemical resistance, scratch resistance, adhesion, non-adhesiveness, water repellency, and water resistance. What has further improved wear resistance is required.

[0004]

The object of the present invention is to provide a surface of a metal substrate with corrosion resistance, scratch resistance, adhesiveness, non-adhesiveness,
An object of the present invention is to provide an anticorrosion coating having a coating layer having improved water repellency and abrasion resistance. Further, the object of the present invention is to
An object of the present invention is to provide an anticorrosion coating which can be used for a long period of time in a corrosive atmosphere and has excellent mold release properties. More specifically,
An object of the present invention is to provide an anticorrosion coating that is excellent in corrosion resistance to sulfuric acid generated during rubber vulcanization and that is suitable as an anticorrosion coating mold that allows easy release of the vulcanized rubber.

As a result of intensive studies to overcome the above-mentioned problems of the prior art, the present inventors provided a coating layer of polytitanocarbosilane on the surface of a metal substrate, and coating a fluororesin thereon. It has been found that by providing a layer or a coating layer of a resin composition containing a fluororesin and a heat-resistant plastic, an anticorrosive coating excellent in corrosion resistance, scratch resistance, adhesiveness, non-adhesiveness, etc. can be obtained. In addition, by providing a coating layer of heat-resistant plastic or a coating layer of a resin composition containing a fluororesin and a heat-resistant plastic on the surface of the metal substrate, and then providing a coating layer of polytitanocarbosilane on it, the same resistance can be obtained. It has been found that an anticorrosive coating excellent in corrosion resistance can be obtained. The anticorrosive coating of the present invention is remarkably excellent in corrosion resistance to sulfuric acid. The present invention has been completed based on these findings.

[0006]

Thus, according to the present invention, a coating layer of polytitanocarbosilane is provided on the surface of a metal substrate, and a coating layer of fluororesin or a fluororesin and heat-resistant plastic is provided on the coating layer. An anticorrosion coating comprising a coating layer of a resin composition containing Also,
According to the present invention, a coating layer of a heat-resistant plastic or a coating layer of a resin composition containing a fluororesin and a heat-resistant plastic is provided on the surface of a metal substrate, and a coating layer of polytitanocarbosilane is provided on the coating layer. An anticorrosion coating is provided.

The present invention will be described in detail below. According to the results of studies conducted by the present inventors, a metal substrate provided with a coating layer of a fluororesin such as tetrafluoroethylene resin (PTFE) has excellent non-adhesiveness and water repellency. ,
Since the adhesive strength to the metal base material is weak, the metal base material is easily peeled off. As a result, the mold has insufficient corrosion resistance to sulfuric acid and low scratch resistance. On the other hand, when a coating layer of polytitanocarbosilane is provided on the surface of the metal substrate and a coating layer of fluororesin is provided thereon, the coating layer of polytitanocarbosilane adheres to the surface of the metal substrate. In addition to forming a film with excellent chemical resistance, the overcoated fluororesin further improves chemical resistance and also imparts non-adhesiveness, giving an anticorrosion coating with excellent chemical resistance. To be This anticorrosive coating has improved coating layer adhesion (adhesive strength), scratch resistance and the like, and also has significantly improved chemical resistance to sulfuric acid corrosion resistance. Furthermore, since it has a non-adhesive surface, when it is coated on a rubber vulcanization mold, it is possible not only to prevent corrosion by sulfuric acid, but also to obtain an anticorrosion coated mold that makes it easy to remove the rubber. it can.

A coating layer of a resin composition containing a fluororesin and a heat resistant plastic may be provided in place of the coating layer of the fluororesin. When a coating layer of a resin composition in which a heat-resistant plastic is mixed with a fluororesin is provided, the polytitanocarbosilane coating layer, which is undercoated, is more firmly bonded. In this case, when a coating layer of a fluororesin is further provided on the coating layer of the resin composition containing the fluororesin and the heat-resistant plastic, a corrosion-resistant coating having further improved chemical resistance and non-adhesiveness can be obtained.

Therefore, the above-mentioned anticorrosion coating has the following laminated structure. (1) Metal substrate / polytitanocarbosilane coating layer / fluorine resin coating layer (2) Metal substrate / polytitanocarbosilane coating layer / resin composition coating layer containing fluorine resin and heat-resistant plastic (3) ) Metal substrate / Coating layer of polytitanocarbosilane / Coating layer of resin composition containing fluororesin and heat resistant plastic /
Fluorine resin coating layer

Further, a heat-resistant plastic coating layer or a resin composition coating layer containing a fluororesin and a heat-resistant plastic is provided as an undercoat layer on the surface of the metal substrate, and a polytitanocarbosilane coating layer is provided thereon. When provided, this undercoat layer adheres very strongly to the surface of the metal substrate and the overcoated polytitanocarbosilane coating layer, and the overcoated polytitanocarbosilane coating layer is scratch resistant and chemical resistant. To give a corrosion-resistant coating having excellent durability.

In this case, chemical resistance and non-adhesiveness can be obtained by further laminating a coating layer of fluororesin or a coating layer of a resin composition containing fluororesin and heat-resistant plastic on the coating layer of polytitanocarbosilane. A very excellent anticorrosion coating is obtained. When a coating layer of a resin composition containing a fluororesin and a heat-resistant plastic is provided, if a coating layer of only the fluororesin is further provided on the coating layer, an anticorrosion coating having further improved chemical resistance and non-adhesiveness can be obtained. can get.

Therefore, the above anticorrosion coating has the following laminated structure. (4) Metal substrate / heat resistant plastic coating layer / polytitanocarbosilane coating layer (5) Metal substrate / heat resistant plastic coating layer / polytitanocarbosilane coating layer / fluorine resin coating layer (6) Metal Substrate / heat-resistant plastic coating layer / polytitanocarbosilane coating layer / coating layer of resin composition containing fluororesin and heat-resistant plastic (7) Metal substrate / heat-resistant plastic coating layer / polytitanocarbosilane coating layer / Coating layer of resin composition containing fluororesin and heat resistant plastic / Coating layer of fluororesin (8) Metal substrate / Coating layer of resin composition containing fluororesin and heat resistant plastic / Coating layer of polytitanocarbosilane (9) ) Metal substrate / Coating layer of resin composition containing fluororesin and heat resistant plastic / Coating layer of polytitanocarbosilane /
Coating layer of fluororesin (10) Metal substrate / coating layer of resin composition containing fluororesin and heat resistant plastic / Coating layer of polytitanocarbosilane / Coating layer of resin composition containing fluororesin and heat resistant plastic (11) Metal substrate / Coating layer of resin composition containing fluororesin and heat resistant plastic / Coating layer of polytitanocarbosilane / Coating layer of resin composition containing fluororesin and heat resistant plastic / Coating layer of fluororesin Of course, these coatings The layer may be provided with merely additional layers.

Examples of the metal substrate include rubber vulcanization molds such as chrome-plated steel molds, frying pans, hot plates, stew pots, inner pots of automatic rice cookers, rice cake molds, cake pudding molds, etc. Examples include kitchen appliances (cooking appliances) and other various metal molded products. The type of metal is not limited to chrome-plated steel such as aluminum and stainless steel, and can be applied.

Polytitanocarbosilane is an organometallic cross-linked polymer also called a tyranopolymer and can be generally obtained by polycondensation of polydimethylsilane with a small amount of a reaction accelerator and an appropriate amount of a titanium compound, followed by thermal polycondensation. . Polytitanocarbosilane is a substantially amorphous polymer,
It is characterized by high compatibility with metals and high oxidation resistance. For coating, for example, Ube Industries, Ltd.
Manufactured by Tyrannocoat VN-100.

As the fluorine resin, for example, tetrafluoroethylene resin (PTFE), tetrafluoroethylene-perfluorofluoroether copolymer (PFA), tetrafluoroethylene-hexafluoropropylene copolymer (FEP). And so on. As heat resistant plastics, triazine resin, polyamideimide (PAI), polyether sulfone (PES), polybenzimidazole (PB)
I), thermosetting or thermoplastic heat resistant plastics such as epoxy resin can be mentioned. It is desirable that the heat distortion temperature of these heat-resistant plastics is usually 100 ° C. or higher, and more preferably 150 ° C. If the heat distortion temperature of the heat-resistant plastic is generally 100 ° C. or higher, predetermined performances such as adhesive strength can be obtained. The above is more preferable. Among these heat-resistant plastics, from the viewpoint of heat resistance and adhesiveness, triazine resin, polyamide-imide,
And polyether sulfone are particularly preferred.

When the heat-resistant plastic is blended with the fluororesin to be used as a resin composition, the blending ratio of the heat-resistant plastic is 100 weight% of the fluororesin in order to take advantage of the chemical resistance and non-adhesive properties of the fluororesin. It is desirable that the amount is 20 parts by weight or less with respect to parts. However, when the heat-resistant plastic is used as the undercoat layer, it can be used alone, and the mixing ratio with the fluororesin is not particularly limited.

Any of these resins or resin compositions can be used for coating (enamel). To form a coating layer on the surface of the metal substrate, a dispersion liquid containing these resins or resin compositions may be sequentially applied by spraying or the like and baked. The thickness of each coating layer can be appropriately determined depending on the purpose of use, but is usually 5 to 40 μm, preferably 7 to 30 μm, and more preferably 8 to 20 μm. If desired, various additives may be added to these resins or resin compositions.

[0018]

EXAMPLES The present invention will be described more specifically below with reference to examples and comparative examples, but the present invention is not limited to these examples.

The methods for measuring the physical properties are as follows. <Chemical resistance> In the chemical resistance test, the mold was immersed in a 20% sulfuric acid aqueous solution for 24 hours, and the ratio (%) of the surface area where the underlying metal was corroded was measured. <Scratch resistance> In the scratch resistance test, the pencil scratching value was measured according to JIS-K-5400. <Adhesive strength> The adhesive strength is JIS-K-5 on the coated surface.
Create a grid of 100 squares according to 400, and attach cellophane tape (made by Nichiban) to this surface, and peel it off.
The test was performed 0 times and the number of remaining cells in 100 cells was evaluated. <Non-adhesiveness> For non-adhesiveness, a contact angle meter made by Kyowa Interface Science Co., Ltd. was used to measure the contact angle with pure water by a liquid-property method.

[Examples 1 to 7 and Comparative Examples 1 to 4] By sequentially coating each material shown in Table 1 by spraying on a round bar (metal mold) made of chrome-plated steel and drying, The layers were laminated and baked after lamination to form an anticorrosion coating. Each material is as follows. (1) Polytitanocarbosilane: Tyrannocoat VN-100 manufactured by Ube Industries, Ltd. (2) Triazine resin: BT-20 manufactured by Mitsubishi Gas Chemical Co., Inc.
60 (3) PAI-blended PTFE: TC-71 manufactured by Daikin Co., Ltd.
09 (4) Epoxy resin blended PTFE: TC manufactured by Daikin
-7400 (5) PES-blended PTFE: TC-88 manufactured by Daikin Co., Ltd.
08 (6) PTFE: EK-4300CRN manufactured by Daikin (7) Epoxy resin: Epicoat 828 manufactured by Yuka Shell Epoxy Co., Ltd. and Kayahard MCD (methyl nadic unhydride) manufactured by Nippon Kayaku Co., Ltd. Examples and comparison Table 1 collectively shows the layer structure of the coating layer and the measurement results of the physical properties of the obtained coating in the examples.

[0021]

[Table 1]

As is clear from Table 1, all of the anticorrosion coatings of the present invention (Examples 1 to 7) were significantly suppressed from being corroded by sulfuric acid, and had a scratch resistance, an adhesive force of the coating layer,
It can be seen that it has excellent non-adhesiveness. Therefore,
The anticorrosion coating of the present invention does not undergo corrosion and can be used as a mold for a long period of time. On the other hand, the comparative example is corroded by sulfuric acid (Comparative Examples 1 to 4),
The scratch resistance is insufficient (Comparative Examples 2 and 3), the adhesive strength is insufficient (Comparative Example 3), or the non-adhesiveness is poor (Comparative Example 2).

[0023]

According to the present invention, there is provided a coated mold having a coating layer which is firmly adhered to the surface of the mold and is excellent in chemical resistance and scratch resistance. This coated mold does not corrode even if it is used for a long time in a corrosive atmosphere such as vulcanization of rubber, and since the outermost layer of the coating layer has non-adhesiveness, It also has excellent demoldability. The anticorrosion coating of the present invention is applied to kitchen appliances such as a hot plate and an inner pot of an automatic rice cooker, and other metal moldings, in addition to the above-mentioned mold.

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Claims (6)

[Claims] 1. A coating layer of polytitanocarbosilane is provided on the surface of a metal substrate, and a coating layer of a fluororesin or a coating layer of a resin composition containing a fluororesin and a heat-resistant plastic is provided on the coating layer. Characteristic anticorrosion coating. 2. The anticorrosion coating according to claim 1, further comprising a coating layer of a fluororesin on a coating layer of a resin composition containing a fluororesin and a heat resistant plastic. 3. A coating layer of a heat-resistant plastic or a coating layer of a resin composition containing a fluororesin and a heat-resistant plastic on the surface of a metal substrate, and a coating layer of polytitanocarbosilane on the coating layer. Characteristic anticorrosion coating. 4. A coating layer of a fluororesin or a coating layer of a resin composition containing a fluororesin and a heat resistant plastic is further provided on the coating layer of polytitanocarbosilane.
The anticorrosion coating described. 5. The anticorrosion coating according to claim 4, further comprising a coating layer of a fluororesin on the coating layer of the resin composition containing the fluororesin and the heat resistant plastic. 6. The heat resistant plastic is a triazine resin,
Polyamideimide or polyether sulfone, The anticorrosion coating according to any one of claims 1 to 5.