JP2009035620A - Silicone coating composition and preparation method of the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a silicone coating composition and a preparation method of the composition that can be rapidly formed into a cured film in a short time without decreasing original features of a silicone coating film, i.e., features excellent in heat resistance, weather resistance, water repellency, electric insulating property, flexure property, flexibility and transparency, and to provide a silicone coating composition and a preparation method of the composition having a high antibacterial effect and capable of keeping a stable antibacterial effect for a long period of time when silver is incorporated as an antibacterial component into the composition. <P>SOLUTION: The silicone coating composition essentially comprises a hydrolyzable organopolysiloxane having both ends of the main chain sealed with alkoxy groups and having an alkoxy group in at least a part of side chains, to which vanadium pentoxide is added as a catalyst for accelerating curing by the hydrolysis and dehydration of the hydrolyzable organopolysiloxane. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a silicone coating composition and a method for producing the same.

Since the coating using silicone has a siloxane bond as the main chain, it is generally excellent in heat resistance, weather resistance, water repellency, electrical insulation, flexibility, flexibility, and transparency. Widely used.
By introducing an alkoxy group into silicone, silanol is generated by hydrolysis of the alkoxy group, and further dehydration can be performed by condensation reaction to be cured and solidified. Therefore, by applying such a material as a paint to the surface of the member, it is possible to obtain a cured coating film that is cured and stable.
However, when the curing by hydrolysis and condensation of the organosiloxane having an alkoxy group depends only on natural conditions, the organosiloxane has a long time and cannot sufficiently perform the performance as a paint.
For this reason, various attempts have been made to accelerate curing by hydrolysis and condensation reactions of organosiloxanes.
In addition, those silicone paints containing an antibacterial component such as silver are also provided.

Japanese Patent Application Laid-Open No. 5-230375 (Patent Document 1) provides a heating-type solvent-free and non-catalytic organosiloxane composition in which an organic compound of liquid silicon, titanium or zirconium is added as a crosslinking agent to an organosiloxane. ing. In this composition, curing can be sufficiently performed with a relatively low heating temperature.
Japanese Patent Laid-Open No. 5-247347 (Patent No. 2137192) (Patent Document 2) uses organometallic compounds of aluminum, boron, silicon, titanium and zirconium as a crosslinking agent in organosiloxane, and further uses zinc and cobalt as catalysts. There is provided a solvent-free, room-temperature curable organosiloxane composition using a metal-containing organic material containing aluminum and tin.
In Japanese Patent Application Laid-Open No. 9-24335 (Patent Document 3), as an invention of an antibacterial inorganic coating material and a method for producing the same, as a catalyst to be added to an inorganic coating containing a silicon compound, a metal salt, an amine salt, an ammonium salt, an amine In particular, an amine-based silane coupling agent, an aluminum compound, an alkali catalyst, a titanium compound, and a halogenated silane are provided. As antibacterial agents, those containing silver, copper, zinc, nickel, palladium, platinum, gold, cadmium, mercury, cobalt, rhodium, quaternary ammonium salts, organic halogen-containing compounds, chlorine-containing compounds, iodine compounds, etc. Is provided.
In JP 2003-3068 A (Patent Document 4), as an invention of a curable composition having antibacterial and fungicidal properties and a cured product thereof, an acid, an organic metal salt, or the like as a curing catalyst to be added to a curable organosilicon compound Is used. In order to impart antibacterial properties, an antibacterial zeolite containing silver ions is provided.
JP-A-2005-139426 (Patent Document 5) discloses a solvent-free room-temperature curing type containing an organopolysiloxane having one or more alkoxy groups having 1 to 5 carbon atoms as a side chain and a silane coupling agent. A silicone resin coating composition is disclosed.
Japanese Patent Laid-Open No. 5-230375 JP-A-5-247347 Japanese Patent Laid-Open No. 9-24335 JP 2003-3068 A JP 2005-139426 A

However, in the case of the solventless non-catalytic organosiloxane composition disclosed in Patent Document 1, there is a problem that a considerable amount of an organometallic compound or the like must be contained as a crosslinking agent.
In the case of the room temperature curable organosiloxane composition of Patent Document 2, the curing catalyst to be used is a metal-containing organic compound, and it is necessary to contain a considerably large amount. There are concerns about application problems. In addition, there are concerns about the problem of product homogenization due to a large amount of catalyst, and the deterioration of heat resistance and solvent resistance, which are the original features of the obtained silicone paint film.
Further, in the case of the antibacterial inorganic paint coated product of Patent Document 3, the object to be used for the catalyst is a paint component composed of two kinds of components: a silica-dispersed oligomer solution of organosilane and a polyorganosiloxane containing a silanol group. It is necessary to mix these two kinds of paint components and catalyst.
In addition, silver, which is an antibacterial component, has a problem that, after coating with a paint, an antibacterial material must be overcoated as a separate operation.
In the case of the curable composition having antibacterial and antifungal properties described in Patent Document 4, zeolite containing silver ions as an antibacterial component is contained, but the content necessary for exhibiting antibacterial properties in zeolite. There is a problem that the transparency and mechanical strength of the silicone film are reduced.
Further, in the room temperature curable silicone resin coating composition of Patent Document 5, it is necessary to use a silane coupling agent.

Therefore, the present invention solves the above-mentioned conventional problems, and as a catalyst for promoting the hydrolysis and dehydration condensation reaction of organosiloxane, it has an effective effect in a small amount and has little adverse effect on the properties of the paint film, Moreover, even if it is applied to daily products, it provides something that does not adversely affect the human body, etc., and this makes it the original features of a silicone-based coating film, that is, heat resistance, weather resistance, water repellency, electrical insulation, It is an object to provide a silicone coating composition that can quickly form a cured film in a short period of time without impairing the features excellent in flexibility, flexibility, and transparency, and to provide a method for producing the silicone coating composition. To do.
Further, when silver is contained as an antibacterial component, it is an object to provide a silicone coating composition having a large antibacterial action and capable of maintaining a stable antibacterial effect over a long period of time, and a method for producing the silicone coating composition. .

In order to achieve the above object, the silicone coating composition of the present invention comprises, as a main component, a hydrolyzable organopolysiloxane having both ends of the main chain blocked with alkoxy groups and having an alkoxy group in at least a part of the side chain, The first feature is that vanadium pentoxide is added as a catalyst for promoting the hydrolysis and hydrolysis of the hydrolyzable organopolysiloxane.
In addition to the first feature, the silicone coating composition of the present invention has a second feature that the amount of vanadium pentoxide added is 0.4 to 5% by weight.
In addition to the first or second feature, the silicone coating composition of the present invention has a third feature of adding silver fine powder as a simple substance instead of a compound.
In addition to the third feature, the silicone coating composition of the present invention has a fourth feature that the silver fine powder has a particle size of 10 microns or less and 2 to 20% by weight is added.
In addition, the method for producing the silicone coating composition of the present invention includes a liquid containing a hydrolyzable organopolysiloxane having a main chain as a main component and having both ends of the main chain blocked with alkoxy groups and at least part of the side chains. The fifth feature is that an alcohol-based dispersion in which vanadium oxide is dispersed is added and stirred.
In addition to the fifth feature, the method for producing a silicone coating composition of the present invention adds and stirs vanadium pentoxide, and then adds and stirs an alcohol-based dispersion in which fine silver powder is dispersed. This is the sixth feature.

According to the silicone coating composition of claim 1, vanadium pentoxide is added to the hydrolyzable organopolysiloxane by adding vanadium pentoxide as a catalyst for promoting curing by hydrolysis and dehydration reaction. By virtue of the large catalytic action possessed by, the hydrolysis and dehydration reaction of the hydrolyzable organopolysiloxane can be promoted in a short time. Therefore, the curing and film formation of the hydrolyzable organopolysiloxane can be completed quickly in a short time.
In addition, since vanadium pentoxide is harmless to the human body, even if the silicone coating composition using it is used in various daily necessities and other products and products related to humans, sufficient safety should be ensured. Can do.
Vanadium pentoxide does not need to be added in a large amount as a catalyst, so the original characteristics of the resulting silicone coating film, that is, heat resistance, weather resistance, water repellency, electrical insulation, flexibility, flexibility, and transparency, are achieved. There is no loss of superior features.
Although vanadium pentoxide may be used in other cases, it has not been conventionally known as a catalytic action for hydrolysis and dehydration of hydrolyzable organopolysiloxane.

  According to the silicone coating composition of claim 2, in addition to the effect of the structure of claim 1, the catalytic effect is obtained by adding 0.4 to 5% by weight of vanadium pentoxide. It can be fully exerted to accelerate the hydrolysis and dehydration reaction of the hydrolyzable organopolysiloxane more effectively and achieve rapid solidification and film formation. In addition, since an unnecessarily large amount is not added, a coating film having no good film defects can be obtained without the coating film formed being rough.

  According to the silicone coating composition according to claim 3, in addition to the effects of the constitution according to claim 1 or 2, active silver ions are added by adding silver fine powder as a simple substance instead of a compound. It can be made to appear, and active silver ions can be made to appear stably over a long period of time, and a good and stable antibacterial effect and deodorizing effect can be maintained.

  According to the silicone coating composition of claim 4, in addition to the effect of the structure of claim 3 above, the addition of 2 to 20% by weight of silver fine powder makes the antibacterial and deodorizing effects of silver actually present. It can be exhibited well. In addition, by setting the particle size of the powder to 10 microns or less, the silver particles can be accommodated and held in the network space of atoms constituting the coating film, and the addition amount of the silver fine particles is 20% by weight or less. By doing so, the entire amount of silver particles can be accommodated in the network space of the siloxane bond, and structural defects are not generated in the silicone paint film. Therefore, by adding in the above range of particle size and particle amount, a good silicone coating film with few defects and good antibacterial and deodorizing effects due to silver can be obtained.

According to the method for producing a silicone coating composition according to claim 5, the main component is a hydrolyzable organopolysiloxane having both ends of the main chain blocked with alkoxy groups and having an alkoxy group in at least a part of the side chain. Since the alcohol-based dispersion liquid in which vanadium pentoxide was dispersed was added to the liquid and stirred, the hydrolyzable organopolysiloxane was cured using vanadium pentoxide as a catalyst, cured by dehydration, and formed into a film for a long time. It is possible to obtain a silicone coating composition that can be applied without necessity.
By using an alcohol dispersion in which vanadium pentoxide is dispersed in an alcohol dispersion medium, the vanadium pentoxide powder can be easily dispersed. Alcohol-based dispersions are not dangerous and are easy to handle. By adding and stirring this alcohol-based dispersion in which vanadium pentoxide is dispersed in a liquid containing hydrolyzable organopolysiloxane as a main component, vanadium pentoxide is easily handled with hydrolyzable organopolysiloxane as a main component. It can be uniformly dispersed in the component liquid, and a rapid catalytic effect can be exhibited.
In addition, since vanadium pentoxide is harmless to the human body, a silicone coating composition that is safe to the human body can be obtained.
Of course, since vanadium pentoxide may be added in a small amount as a catalyst, a coating film that does not impair heat resistance, weather resistance, water repellency, electrical insulation, flexibility, flexibility, and transparency can be obtained. A silicone coating composition can be provided.

According to the method for producing a silicone coating composition according to claim 6, in addition to the function and effect of the structure according to claim 5, vanadium pentoxide is added and stirred, and then silver fine powder is further dispersed. Since the alcohol-based dispersion was added and stirred, a silicone coating composition in which silver fine powder was dispersed as an antibacterial component can be obtained.
By using an alcohol-based dispersion obtained by dispersing silver fine powder in an alcohol-based dispersion medium, the silver fine powder can be easily and effectively dispersed. Alcohol-based dispersions are not dangerous and are easy to handle. By adding and stirring the alcoholic dispersion liquid in which the silver fine powder is dispersed to the hydrolyzable organopolysiloxane, the silver fine powder is uniformly distributed in the network space of the siloxane bond of the hydrolyzable organopolysiloxane cured film. It can be supported and dispersed.

First, an embodiment according to the silicone coating composition of the present invention will be described.
The silicone coating composition according to an embodiment of the present invention is obtained by adding vanadium pentoxide as a catalyst to hydrolyzable organopolysiloxane.

  The hydrolyzable organopolysiloxane forms a basic solution from a silicone oligomer having a Si—O siloxane bond structure in the main chain and having a methyl group in the side chain and a silicone oligomer having a phenyl group. Although there is a selection of a silicone oligomer having only a methyl group, the hardness of the obtained coating film is excessively increased only by the methyl group. A phenyl group silicone oligomer is mixed as a hardness adjusting agent for the coating film.

The hydrolyzable organopolysiloxane is produced by adding 120 parts of phenyl silicone oligomer to 165 parts of methyl silicone oligomer, further adding 15 parts of methyltrimethoxysilane, and stirring at 60 ° C. for 90 minutes. As a result, a hydrolyzable organopolysiloxane having a three-dimensional structure in which both ends of the molecule are blocked with an alkoxy functional group R ¹ is obtained.
The ratio of the methyl silicone oligomer to the phenyl silicone oligomer is not limited to 165 parts to 120 parts. When the hardness of the coating film is increased, the amount of the methyl silicone oligomer is increased. When the hardness of the coating film is decreased, the amount of the phenyl silicone oligomer is increased according to the degree. Also, the amount of methyltrimethoxysilane is not necessarily 15 parts. An appropriate ratio is selected depending on the ratio of the alkoxy group introduced into the side chain of the hydrolyzable organopolysiloxane. However, the amount of methyltrimethoxysilane is 5 to 30 parts. If it is less than 5 parts, even if it adds the catalyst mentioned later, a hydrolysis reaction does not arise substantially. If it exceeds 30 parts, the hydrolysis reaction does not proceed well. The amount is preferably 12 to 18 parts.
The chemical structural formula of the resulting hydrolyzable organopolysiloxane is shown in Chemical Formula 1.

In Chemical Formula 1, R ¹ and R ² represent the same group selected by a phenyl group or a methyl group or different groups, and R ³ is the same or selected from a methyl group, a phenyl group, or an alkoxy group having 1 to 5 carbon atoms. N represents different groups, n R ³ represents at least one alkoxy group. n shows the number of 2-10.

The obtained hydrolyzable organopolysiloxane has 100% active ingredient and exists stably without water. However, when an alkoxysilane group is added, this organopolysiloxane reacts with moisture in the air when exposed to air at room temperature, and the alkoxysilane group (Si-OR) is hydrolyzed to produce a silanol group (Si--). OH) is produced. Further, it is cured by a dehydration reaction of this silanol group. This curing rate is proportional to the hydrolysis reaction rate of the alkoxy group. Through hydrolysis and dehydration, a transparent thin siloxane-bonded film is formed as a result. If this thin film is applied, the thickness can be adjusted to about 1 to 40 microns.
The resulting coating film is rich in gloss and has a transparency of over 90%. Further, the hardness increases to 3H in pencil hardness, and since it has a large bond energy between silicon and oxygen of 106 kilocalories per mole on the silicone structure, it has the property to withstand acid rain.

However, the hydrolyzable organopolysiloxane has a considerably slow hydrolysis rate of the contained alkoxy group under natural conditions as it is, and requires a long time for dehydration and curing.
For this reason, in the present invention, in order to accelerate the hydrolysis reaction of the hydrolyzable organopolysiloxane, as a result of repeating research and experiment, it is optimal to add vanadium pentoxide (V ₂ O ₅ ) as a catalyst. I found it.
Of course, vanadium pentoxide is known as a catalyst for desulfurization of petroleum and other oxidation catalysts, but the present inventors have first known as a catalyst for hydrolysis of hydrolyzable organopolysiloxane. is there.

The amount of vanadium pentoxide added is 0.4 to 5% by weight, although it depends on the amount of alkoxy groups contained in the hydrolyzable organopolysiloxane. If it is less than 0.4% by weight, the hydrolysis promoting effect cannot be expected so much. On the other hand, if it exceeds 5% by weight, the surface of the resulting coating film becomes rough.
The amount of vanadium pentoxide added is preferably 0.7 to 1.0% by weight.

Vanadium pentoxide is dispersed in a fine powder in an alcohol-based dispersion medium. Then, the alcohol-based dispersion in which vanadium pentoxide is dispersed is added to the hydrolyzable organopolysiloxane and stirred to make vanadium pentoxide dispersed in the hydrolyzable organopolysiloxane.
The alcohol-based dispersion medium is typically an alcohol itself, and is a hydroxy compound in which a hydrogen atom of a chain or alicyclic hydrocarbon is substituted with a hydroxyl group. However, in addition, alcohol derivatives and esters having functional groups other than hydroxyl groups are included. Specifically, lower alcohols are preferable because they are easy to handle and less dangerous.

When the hydrolyzable organopolysiloxane added with the vanadium pentoxide is stirred for about 3 minutes, the catalytic action is started.
The presence of vanadium pentoxide greatly accelerates the hydrolysis of alkoxy groups and accelerates the dehydration reaction. There is no need to add a reaction blocking agent. As a result, the curing time is greatly shortened, and the surface of the thin film is cured in about 30 to 60 minutes. If it is cured, it will not crack or peel even when used under severe conditions such as underwater, and has high durability and weather resistance. Furthermore, it is possible in about 60 minutes to secure a coating film hardness of 3H with pencil hardness.

In addition to adding vanadium pentoxide as a catalyst to the hydrolyzable organopolysiloxane, the silicone coating composition according to the embodiment of the present invention is obtained by adding silver fine powder as a simple substance instead of a compound.
Silver ions have antibacterial and deodorizing effects. In the present invention, silver is not added as a compound such as an oxide, but by adding it alone, effective antibacterial action and deodorizing action are exhibited, and the effective antibacterial action and catalytic action are maintained for a long time. So that it can last.
That is, when silver is added as a compound instead of a simple substance, silver ions are not easily liberated from the compound, and the amount of effective silver ions generated is reduced. Further, the total amount of effective silver ions is reduced, and the effect is not sustained for a long time. On the other hand, when silver is added alone, the appearance of active free silver ions is expected, and effective antibacterial and deodorizing effects are expected. In addition, the total number of effective silver ions that appear is high, and a stable silver ion effect can be expected over a long period of time.

The silver fine powder has a particle size of 10 microns (μm) or less. If the particle size of the silver fine particles exceeds 10 microns, the diameter of the silver particles is too large so that the silver particles are not accommodated in the network space of the atoms constituting the coating film, resulting in structural defects in the coating film. Weaken. On the other hand, when the silver fine particles become as fine as nano-size, the unique properties of the nanoparticles increase, which is not preferable.
The particle diameter of the silver fine particles is preferably 2 to 4 microns.
The amount of silver fine particles added is 2 to 20% by weight. If it is less than 2% by weight, the antibacterial and deodorizing effects are not sufficient. On the other hand, when the amount exceeds 20% by weight, the silver fine particles cannot be accommodated in the network space of atoms constituting the coating film.
The amount of silver fine particles added is preferably 10 to 15% by weight.

The silver fine particles are preliminarily placed in an alcohol dispersion medium and dispersed in a colloidal form. Then, the alcohol-based dispersion liquid in which the silver fine particles are dispersed is added to the hydrolyzable organopolysiloxane to which the vanadium pentoxide is added, and the vanadium pentoxide is dispersed in the hydrous organopolysiloxane by stirring.
The alcohol-based dispersion medium is the same as described above.
Addition and stirring of the alcohol-based dispersion liquid in which silver fine particles are dispersed is promptly performed after the addition of the vanadium pentoxide. This is because the hydrolysis and dehydration of the hydrolyzable organopolysiloxane has already started by adding vanadium pentoxide and stirring.
The addition of silver fine particles can be performed prior to the addition of vanadium pentoxide.

When the addition and stirring of the silver fine particles to the hydrolyzable organopolysiloxane are completed, the hydrolyzable organopolysiloxane is quickly transferred to a spray gun cup or the like and coating is started. Hydrolysis has already begun with two stirrings at the time of adding vanadium pentoxide catalyst and silver fine powder, and if it is applied for a long time, the viscosity rises rapidly, and the air gun cup within a short time It is necessary to apply quickly because the silicone liquid hardens in the inside.
For application with an air gun, it is more preferable to use a low-pressure type air gun. The blowing pressure of the air gun is preferably 0.20 to 0.35 MPa. There are two types, a suction type and a pressure type, but the pressure type is preferred. The amount of air used is preferably 200 to 400 L / min. The amount of paint used is preferably 190 to 210 L / min. The compressor is preferably 7.5 hp. In addition to the air gun, brushes and rollers can be used for application.

  Immediately after applying the silicone coating composition, it is exposed to hot air of about 120 to 200 ° C. to accelerate drying for 1 to 2 hours. A thin film can be obtained. The thin film can be adjusted to a thickness of about 1 to 40 microns. It is also possible to adjust the thickness by recoating once applied.

Silver fine powder is dispersed and held in the coating film, and generates silver ions upon contact with moisture or water in the moisture of the air. Silver ions contact bacteria and sterilize. It also eliminates odors produced by bacteria.
The coating film is excellent in antibacterial properties, weather resistance, water resistance, heat resistance, chemical resistance, impact resistance, flexibility, and transparency.
In addition to silver, apatite and titanium dioxide may be added to form a transparent and highly antibacterial coating composition.

  The coating composition of the present invention comprises metal soap (metal product in the form of soap), resin soap (product in the form of soap with resin and silicone), kitchen garbage receptacle, toothbrush storage container, cup for rinsing mouth , Denture storage container, bath basin, bath products (shampoo case, soap case, all other small bath products), bathtub cover, bath drainage filter, just add water and deodorize the room It can be applied to bottles that can be removed, bottles that can eliminate body odors simply by adding water, storage devices that contain toothpicks, and other parts and places where various bacteria and odors are generated.

Example 1
165 parts methyl group silicone oligomer made by Shin-Etsu Chemical Co., Ltd., 120 parts phenyl group silicone oligomer made by Shin-Etsu Chemical Co., Ltd., and 15 parts methyl trimethoxysilane made by Shin-Etsu Chemical Co., Ltd. An organopolysiloxane having an alkoxy group was obtained by heating to 0 ° C. and adjusting the stirring for 90 minutes. This organopolysiloxane had an average molecular weight (Mn) of 950, a viscosity of 75, an MWD of 1.63, and an alkoxy group content of 15% by weight.
1.0% by weight of vanadium pentoxide manufactured by Shinsei Chemical Industry Co., Ltd. was dispersed in an alcohol-based dispersion medium and added to the obtained organopolysiloxane, stirred, and further silver fine powder (3 μm) 15 manufactured by Tanaka Kikinzoku Store. A weight percent is dispersed in an alcohol-based dispersion medium, added, and stirred for several minutes. Thereby, a silicone coating composition is obtained. The obtained silicone coating composition was applied on the surface to be coated with an air gun to a thickness of about 10 microns and dried with hot air at 120 to 200 ° C. for 1 to 2 hours to obtain a silicone resin coating film.
(Comparative Example 1)
“Ceraton NP” manufactured by Suzuki Sangyo Co., Ltd. was used. This “Ceraton NP” is a room-temperature curable organosiloxane coating composition, which is a coating composition using a liquid organopolysiloxane, a crosslinking agent, and a curing catalyst of an organometallic compound based on the above-mentioned Patent Document 2. Using this coating composition, a coating film was obtained under the same conditions as in Example 1 above. A coating film was obtained under the same conditions using a coating composition in which 15% by weight of silver fine powder was directly added and stirred.
(Comparative Example 2)
Shinshin Paint Co., Ltd. “Shinko Super Sera” was used. This “Shinko Super Sera” is a room temperature curable silicone resin coating composition, based on the above-mentioned Patent Document 5, an organopolysiloxane having one or more C 1-5 alkoxy groups as side chains and a silane coupling agent. The coating composition containing these. Using this coating composition, a coating film was obtained under the same conditions as in Example 1 above. A coating film was obtained under the same conditions using a coating composition in which 15% by weight of silver fine powder was directly added and stirred.

(Comparative test)
Example 1 and Comparative Examples 1 and 2 were tested for quick drying, heat resistance, solvent resistance, surface hardness, adhesion, dispersibility, and tack-free time. The results are shown in Table 1.
Here, quick-drying was performed by laminating a coating composition on a surface to be coated and then drying with hot air at 120 to 200 ° C. for 1 to 2 hours to determine whether or not the coating film was dried.
The heat resistance was determined according to JIS K5400-7-1 by heating at 200 ° C. for 30 minutes, then allowing to cool to room temperature, observing cracks and swelling of the coating film, and the like.
The solvent resistance was determined by observing peeling and swelling after immersion in xylene for 30 minutes.
The surface hardness is in accordance with JIS K5400-6-14.
Adhesion was performed according to the cross cut test method of JIS K5400-6-15.
The dispersibility was judged by observing the dispersion of the silver fine powder in the coating film with a magnifying lens.
The tack-free time is the time until the paint does not adhere even if it is lightly touched with a finger when the surface is dried with hot air at 120 to 200 ° C. after the coating composition is laminated on the surface to be coated. It was measured.

  As is apparent from Table 1, Comparative Example 1 was inferior in quick drying and tack-free properties. In fact, it took several days for the paint of Comparative Example 1 to dry. Further, it was found that when silver fine powder was directly added to Comparative Example 1 and Comparative Example 2, uniform dispersion of silver was not practically possible.

Claims (6)

  It is mainly composed of hydrolyzable organopolysiloxane that has both ends of the main chain blocked with alkoxy groups and has alkoxy groups in at least part of the side chains, and promotes hydrolysis and dehydration of the hydrolyzable organopolysiloxanes. Silicone paint composition characterized by adding vanadium pentoxide as a catalyst for the preparation.   2. The silicone coating composition according to claim 1, wherein the amount of vanadium pentoxide added is 0.4 to 5% by weight.   3. The silicone coating composition according to claim 1, wherein silver fine powder as a simple substance is added instead of a compound.   4. The silicone coating composition according to claim 3, wherein the silver fine powder has a particle size of 10 microns or less, and 2 to 20% by weight is added.   An alcoholic dispersion in which vanadium pentoxide is dispersed is added to a liquid mainly composed of a hydrolyzable organopolysiloxane having both ends of the main chain blocked with alkoxy groups and having at least a part of the side chains. A method for producing a silicone coating composition, comprising stirring.   6. The method for producing a silicone coating composition according to claim 5, wherein vanadium pentoxide is added and stirred, and then an alcoholic dispersion in which fine silver powder is dispersed is further added and stirred.