JPH0617001A - Chipping-resistant coating composition - Google Patents

Abstract

PURPOSE:To obtain a chipping-resistant coating composition of topcoating type improved in adhesion to topcoat and weathering resistance and shortened in the time necessary to be put in service after application. CONSTITUTION:The composition is a two-pack one comprising a base mainly consisting of a polyether polyol and a curing agent comprising an isocyanate. The base comprises 2-5 pts.wt. polyether polyol of a hydroxyl value of 500-1000per 45 pts.wt. polyether polyol of a hydroxyl value of 500 or below, 1-4.5 pts.wt. tin catalyst as a curing agent, 19-70 pts.wt. talc as a flaky filler, and the curing agent comprises an HDI isocyanate.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a chip-resistant coating composition which is applied to the lower part of the body of an automobile or the like to prevent scratches on the top coating surface due to flying stones, etc. The present invention relates to an improved chip resistant coating composition.

[0002]

2. Description of the Related Art Conventionally, a rocker panel, an underfloor, etc. at the bottom of an automobile body has a thick coating film, and the elasticity of the coating film absorbs the energy of flying stones to prevent scratches from reaching the substrate. Therefore, chip-resistant paint is applied.
Then, an overcoat type chip-resistant paint to be applied on the overpainted surface such as a rocker panel is applied to prevent scratches on the overpainted surface. Chip-resistant paint requires a thick film,
In order to satisfy various properties such as water resistance and solvent resistance, in general, a two-pack type in which an isocyanate is mixed with a polyol is used for a top coating type chip resistant coating,
Further, urethane type and vinyl chloride sol may be used.

[0003]

However, in recent years, as the acid rain resistance and the scratch resistance of the top coating film for automobile bodies have been improved, the adhesion of the top coating chip-resistant coating material to the top coating film decreases. It was decided to do. Therefore, due to the impact of flying stones or the like, peeling occurs between the top coating film and the chip resistant coating film, and the appearance quality is deteriorated. Therefore, it is desired to improve the adhesion of the chip resistant paint to the top coating film.

On the other hand, the chip-resistant paint is applied to the lower part of the automobile body, but the coating surface which is the external appearance is naturally required to have a predetermined weather resistance.

Further, in view of coating efficiency, it is desired that the chip-resistant coating material has a short time from application to use, that is, good drying property.

[0006] Therefore, an object of the present invention is to provide a chip-resistant coating composition capable of improving the adhesion to the top coating composition, improving the weather resistance, and shortening the time required for use after coating. .

[0007]

A chip-resistant coating composition according to the invention of claim 1 is a two-pack type chip-resistant coating composition comprising a main component containing a polyol as a main component and a curing agent containing an isocyanate. 2 to 5 parts by weight of a polyol having a hydroxyl value of 500 to 1000 and 2 to 4.5 parts by weight of a curing catalyst are mixed in 45 parts by weight of a polyol having a hydroxyl value of 500 or less. It will be.

Further, the chip-resistant coating composition according to the invention of claim 2 has a hydroxyl value of 5 in the main component according to claim 1.
2 to 5 parts by weight of a polyol having a hydroxyl value of 500 to 1000, 2 to 4.5 parts by weight of a curing catalyst, and 1 part of a scaly filler to 45 parts by weight of a polyol of 00 or less.
It is a mixture of 9 to 70 parts by weight.

A chip-resistant coating composition according to a third aspect of the present invention is one in which the curing agent according to the first or second aspect is an aliphatic isocyanate.

[0010]

In the invention of claim 1, since the polyol as the main component is mixed with the polyol having a high hydroxyl value and the curing catalyst in a predetermined amount, the curing of the coating film is promoted and the adhesion to the top coating film is improved. Also, the weather resistance is improved, and the time required for use after application is shortened.

Further, in the invention of claim 2, 19 to 70 parts by weight of the scale-like filler is further mixed with the chip-resistant coating composition according to claim 1, so that the collision energy is the scale-like filler. Are dispersed and the coating film is prevented from peeling.

Further, in the invention of claim 3, since the curing agent according to claim 1 or 2 is an aliphatic isocyanate, the reactivity with the main agent is improved and the coating film has flexibility. It is applied and the collision energy is absorbed.

[0013]

EXAMPLES Examples of the present invention will be described below.

The compositions of Example 6 and Comparative Example 9 are shown in FIG.

FIG. 1 is a table showing the composition and test results of the chip resistant coating compositions of Examples and Comparative Examples of the present invention, and the unit in the table is parts by weight.

In the table of FIG. 1, the polyether polyol which is the main component of the main component is Desmophen 900U OH number 190 manufactured by Sumitomo Bayer Co., Ltd., and the high OHV polyol which is a feature of the present invention is Adeka Polyether manufactured by Asahi Denka Co., Ltd.
BM-34 OH number 800, pigment charcoal NCC-P manufactured by Nitto Koka Kogyo Co., Ltd., talc as a scale-like filler of the present invention is Fuji Talc Kogyo PKP # 80.
The finely divided silica as an anti-sagging agent is Mizusukasil P-73 manufactured by Mizusawa Chemical Co., Ltd., and the curing catalyst, which is a feature of the present invention, is Stann-BL which is a tin-based catalyst manufactured by Sansha Machinery Co., Ltd., and is used as a solvent. The ester solvent ethyl acetate was used.

On the other hand, isocyanate, which is a curing agent, is an aromatic type, that is, a TDI type, and a desmodule E-1361 NCO = 6.7% manufactured by Sumitomo Bayer Co., Ltd. E-3150 NCO = 8.5% was used.

In the components shown in the table of FIG. 1, among the components constituting the main component, polyether polyol, pigment charcoal,
The fine silica powder and the ester solvent of the anti-sagging agent had the same composition in each of Examples and Comparative Examples. In addition, as a curing agent, HDI-based isocyanate was blended in the same amount in all of Examples and Comparative Examples except Comparative Example 9.

The base material and the curing agent having the above composition are mixed and stirred at a predetermined ratio, and then applied to the object to be coated within a predetermined time. Coating can be performed by various coating methods such as air spray and airless spray.

Next, the test results of the above Examples and Comparative Examples will be described.

The test piece was prepared by applying an intermediate coating and a top coating to a steel plate that had been electrodeposition coated, and then applying a gray chip resistant coating material to the coating surface to a film thickness of about 150 μm.

The tests were conducted for adhesion, pot life, touch dryness and accelerated weathering.

Adhesiveness is 10 after knife cutting with a width of 2 mm.
The number of stitches of peeling when the Nichiban cello tape was peeled off was counted by making × 10 = 100 eye stitches.

The pot life was determined by mixing the main agent and the curing agent at 20 ° C., and after 30 minutes, whether or not airless spraying was possible.

The touch-drying property was judged by whether or not the paint adhered to the finger when dried at 50 ° C. for 10 minutes after being coated with 150 μm.

The accelerated weather resistance was tested for 200 hours using a sunshine weather meter, and the appearance was visually observed to check for swelling, whitening, discoloration and the like.

The results of the test conducted by the above test method are shown in the lower column of the table of FIG.

Regarding the adhesiveness, in all of the six examples, no peeling occurred, but in the comparative examples, except for the comparative example 8, all of the 100 eyes were peeled.

It is considered that in Comparative Examples 1 and 2, the effect of the high OHV polyol is not exhibited because the amount of the high OHV polyol mixed is 0 or small. Also,
In Comparative Example 3, the amount of the high OHV polyol mixed was 9 parts by weight, and it is shown that if the amount is too large, the adhesiveness decreases. Therefore, the mixing amount of the high OHV polyol is preferably 2 to 5 parts by weight as in the example.

It is considered that, in Comparative Examples 4 and 5, the effect of talc was not exhibited due to the amount of talc being 0 or small. In Comparative Example 6, 1
It is 10 parts by weight, and if it is too much, the adhesiveness is lowered. Therefore, the mixing amount of talc is 1 as in the embodiment.
9 to 70 parts by weight is desirable.

Further, in Comparative Example 7, the amount of the tin-based catalyst peeled off when the amount was 1.5 parts by weight and 6 parts by weight of Comparative Example 8 also peeled off. It is desirable to be a part.

In Comparative Example 9 in which TDI isocyanate was used as the curing agent, complete peeling occurred. In all of the examples using HDI-based isocyanate, the adhesion was good.

The pot life was all coatable in the examples, whereas the comparative example 8 containing a large amount of tin catalyst could not be coated because the viscosity was high.

The dryness to the touch was good in all of the Examples, but was poor in Comparative Example 7 in which the amount of tin-based catalyst was small in Comparative Examples.

The accelerated weather resistance was good except for Comparative Example 9.

As described above, the chip-resistant coating composition of the above example is a two-pack type chip-resistant coating composition comprising the main component containing polyether polyol as the main component and the curing agent containing isocyanate as a component. 2 to 5 parts by weight of a high OHV polyether polyol having a hydroxyl value of 800 and 45 to 4 parts by weight of a polyether polyol having a hydroxyl value of 190, and a tin-based catalyst as a curing catalyst in 2 to 4. 5 parts by weight, 1 talc as a scale-like filler
9 to 70 parts by weight are mixed and HDI type isocyanate is used as a curing agent.

Therefore, according to the above-mentioned embodiment, since the polyether polyol as the main component is mixed with the polyether polyol having a high hydroxyl value and the tin catalyst in a predetermined amount, the curing of the coating film can be promoted and the overcoating can be promoted. The adhesion to the coating film and the weather resistance can be improved, and the time from application to use can be shortened.

Further, since a predetermined amount of talc as the scale-like filler is mixed, the collision energy can be dispersed by the talc and the coating film can be prevented from peeling.

Furthermore, since the curing agent is an aliphatic isocyanate, the reactivity with the main agent is improved, the coating film is given flexibility and the collision energy is absorbed. Therefore, it is possible to prevent the coating film from peeling off due to the impact of flying stones or the like.

By the way, although the polyether polyol is used as the polyol which is the main component of the main component in the above-mentioned examples, the present invention is not limited to this, and other polyesters are used. It is also possible to use polyols.

Further, although talc is used as the flaky filler in the above-mentioned examples, mica and acicular filler talc may be used in the case of carrying out the present invention.

Further, although the tin-based catalyst is used as the curing catalyst in the above embodiment, the curing catalyst is not limited to this and may be an amine-based catalyst.

The isocyanate used in the above examples is I
PDI etc. can be mentioned.

[0044]

As described above, the chip-resistant coating composition according to the invention of claim 1 is a two-component type chip-resistant coating composition comprising a main component containing a polyol as a main component and a curing agent containing an isocyanate. 2 to 5 parts by weight of a polyol having a hydroxyl value of 500 to 1000 relative to 45 parts by weight of a polyol having a hydroxyl value of 500 or less in the base material.
The curing catalyst is mixed in an amount of 2 to 4.5 parts by weight.
Therefore, since the polyol, which is the main component, is mixed with a predetermined amount of the polyol having a high hydroxyl value and the curing catalyst,
It is possible to accelerate the curing of the coating film, improve the adhesion to the top coating film and the weather resistance, and shorten the time until it can be used after coating.

The chip-resistant coating composition of the invention of claim 2 is
In the main agent according to claim 1, the hydroxyl value is 500 to 10 relative to 45 parts by weight of the polyol having a hydroxyl value of 500 or less.
2 to 5 parts by weight of a polyol of 00 and 2 to 2 parts of a curing catalyst.
4.5 parts by weight, and further 19 to 70 parts by weight of a scale-like filler are mixed. Therefore, in particular, since the scale-like filler is mixed in a predetermined amount, the collision energy can be dispersed by the scale-like filler, and the adhesion to the top coat film can be further improved.

The chip-resistant coating composition of the invention of claim 3 is
An aliphatic isocyanate is used as the curing agent according to claim 1 or 2. Therefore, in particular, the reactivity with the main agent is improved, the coating film is imparted with flexibility and the collision energy is absorbed, so that the coating film can be prevented from peeling off due to the impact of a flying stone or the like.

[Brief description of drawings]

FIG. 1 is a table showing the composition and test results of chip-resistant coating compositions of Examples and Comparative Examples of the present invention.

[Procedure amendment]

[Submission date] January 12, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

Patent application title: Chip resistant coating composition

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a chip-resistant coating composition which is applied to the lower part of the body of an automobile or the like to prevent scratches on the top coating surface due to flying stones, etc. The present invention relates to an improved chip resistant coating composition.

[0002]

2. Description of the Related Art Conventionally, a rocker panel, an underfloor, etc. at the bottom of an automobile body has a thick coating film, and the elasticity of the coating film absorbs the energy of flying stones to prevent scratches from reaching the substrate. Therefore, chip-resistant paint is applied.
Then, an overcoat type chip-resistant paint to be applied on the overpainted surface such as a rocker panel is applied to prevent scratches on the overpainted surface. Chip-resistant paint requires a thick film,
In order to satisfy various properties such as water resistance and solvent resistance, a two-pack type in which an isocyanate is mixed with a polyol is generally used for the top coating type chip-resistant coating material.

[0003]

However, in recent years, as the acid rain resistance and the scratch resistance of the top coating film for automobile bodies have been improved, the adhesion of the top coating chip-resistant coating material to the top coating film decreases. It was decided to do. Therefore, due to the impact of flying stones or the like, peeling occurs between the top coating film and the chip resistant coating film, and the appearance quality is deteriorated. Therefore, it is desired to improve the adhesion of the chip resistant paint to the top coating film.

On the other hand, the chip-resistant paint is applied to the lower part of the automobile body, but the coating surface which is the external appearance is naturally required to have a predetermined weather resistance.

Further, in view of coating efficiency, it is desired that the chip-resistant coating material has a short time from application to use, that is, good drying property.

[0006] Therefore, an object of the present invention is to provide a chip-resistant coating composition capable of improving the adhesion to the top coating composition, improving the weather resistance, and shortening the time required for use after coating. .

[0007]

A chip-resistant coating composition according to the invention of claim 1 is a two-pack type chip-resistant coating composition comprising a main component containing a polyol as a main component and a curing agent containing an isocyanate. In the base material, 2 to 5 parts by weight of a polyol having a hydroxyl value of 500 to 1000 and 1 to 4.5 parts by weight of a curing catalyst are mixed with 45 parts by weight of a polyol having a hydroxyl value of 500 or less. It will be.

Further, the chip-resistant coating composition according to the invention of claim 2 has a hydroxyl value of 5 in the main component according to claim 1.
2 to 5 parts by weight of a polyol having a hydroxyl value of 500 to 1000, 1 to 4.5 parts by weight of a curing catalyst, and 1 part of a scaly filler with respect to 45 parts by weight of a polyol of 00 or less.
It is a mixture of 9 to 70 parts by weight.

A chip-resistant coating composition according to a third aspect of the present invention is one in which the curing agent according to the first or second aspect is an aliphatic isocyanate.

[0010]

In the invention of claim 1, since the polyol as the main component is mixed with the polyol having a high hydroxyl value and the curing catalyst in a predetermined amount, the curing of the coating film is promoted and the adhesion to the top coating film is improved. Also, the weather resistance is improved, and the time required for use after application is shortened.

Further, in the invention of claim 2, 19 to 70 parts by weight of the scale-like filler is further mixed with the chip-resistant coating composition according to claim 1, so that the collision energy is the scale-like filler. Are dispersed and the coating film is prevented from peeling.

Further, in the invention of claim 3, since the curing agent according to claim 1 or 2 is an aliphatic isocyanate, the reactivity with the main agent is improved and the coating film has flexibility. It is applied and the collision energy is absorbed.

[0013]

EXAMPLES Examples of the present invention will be described below.

The compositions of Example 7 and Comparative Example 9 are shown in FIG.

FIG. 1 is a table showing the composition and test results of the chip resistant coating compositions of Examples and Comparative Examples of the present invention, and the unit in the table is parts by weight.

In the table of FIG. 1, the polyether polyol which is the main component of the main component is Desmophen 900U OH number 190 manufactured by Sumitomo Bayer Co., Ltd., and the high OHV polyol which is a feature of the present invention is Adeka Polyether manufactured by Asahi Denka Co., Ltd.
BM-34 OH number 800, pigment charcoal NCC-P manufactured by Nitto Koka Kogyo Co., Ltd., talc as a scale-like filler of the present invention is Fuji Talc Kogyo PKP # 80.
The finely divided silica as an anti-sagging agent is Mizusukasil P-73 manufactured by Mizusawa Chemical Co., Ltd., and the curing catalyst, which is a feature of the present invention, is Stann-BL which is a tin-based catalyst manufactured by Sansha Machinery Co., Ltd., and is used as a solvent. The ester solvent ethyl acetate was used.

On the other hand, isocyanate, which is a curing agent, is an aromatic type, that is, a TDI type, and a desmodule E-1361 NCO = 6.7% manufactured by Sumitomo Bayer Co., Ltd. E-3150 NCO = 8.5% was used.

In the components shown in the table of FIG. 1, among the components constituting the main component, polyether polyol, pigment charcoal,
The fine silica powder and the ester solvent of the anti-sagging agent had the same composition in each of Examples and Comparative Examples. In addition, as a curing agent, HDI-based isocyanate was blended in the same amount in all of Examples and Comparative Examples except Comparative Example 9.

The base material and the curing agent having the above composition are mixed and stirred at a predetermined ratio, and then applied to the object to be coated within a predetermined time. Coating can be performed by various coating methods such as air spray and airless spray.

Next, the test results of the above Examples and Comparative Examples will be described.

The test piece was prepared by applying an intermediate coat and an acid rain-resistant top coat to a steel plate that had been electrodeposited, and then applying a gray chip-resistant paint to the coating surface to a film thickness of about 150 μm.

The tests were conducted for adhesion, pot life, touch dryness and accelerated weathering.

Adhesiveness is 10 after knife cutting with a width of 2 mm.
The number of stitches of peeling when the Nichiban cello tape was peeled off was counted by making × 10 = 100 eye stitches.

The pot life was determined by mixing the main agent and the curing agent at 20 ° C., and after 30 minutes, whether or not airless spraying was possible.

The touch-drying property was judged by whether or not the paint adhered to the finger when dried at 50 ° C. for 10 minutes after being coated with 150 μm.

The accelerated weather resistance was tested for 200 hours using a sunshine weather meter, and the appearance was visually observed to check for swelling, whitening, discoloration and the like.

The results of the test conducted by the above test method are shown in the lower column of the table of FIG.

Regarding the adhesiveness, in all of the seven examples, no peeling occurred, but in the comparative examples, except for the comparative example 8, all of the 100 eyes were peeled.

It is considered that in Comparative Examples 1 and 2, the effect of the high OHV polyol is not exhibited because the amount of the high OHV polyol mixed is 0 or small. Also,
In Comparative Example 3, the amount of the high OHV polyol mixed was 9 parts by weight, and it is shown that if the amount is too large, the adhesiveness decreases. Therefore, the mixing amount of the high OHV polyol is preferably 2 to 5 parts by weight as in the example.

It is considered that, in Comparative Examples 4 and 5, the effect of talc was not exhibited due to the amount of talc being 0 or small. In Comparative Example 6, 1
It is 10 parts by weight, and if it is too much, the adhesiveness is lowered. Therefore, the mixing amount of talc is 1 as in the embodiment.
9 to 70 parts by weight is desirable.

Further, in Comparative Example 7, the amount of the tin-based catalyst peeled off when the amount was 0.5 part by weight and 6 parts by weight of Comparative Example 8 also peeled off. It is desirable to be a part.

In Comparative Example 9 in which TDI isocyanate was used as the curing agent, complete peeling occurred. In all of the examples using HDI-based isocyanate, the adhesion was good.

The pot life was all coatable in the examples, whereas the comparative example 8 containing a large amount of tin catalyst could not be coated because the viscosity was high.

The dryness to the touch was good in all of the Examples, but was poor in Comparative Example 7 in which the amount of tin-based catalyst was small in Comparative Examples.

The accelerated weather resistance was good except for Comparative Example 9.

As described above, the chip-resistant coating composition of the above example is a two-pack type chip-resistant coating composition comprising the main component containing polyether polyol as the main component and the curing agent containing isocyanate as a component. 2 to 5 parts by weight of a high OHV polyether polyol having a hydroxyl value of 800 and 45 to 100 parts by weight of a polyether polyol having a hydroxyl value of 190, and a tin-based catalyst as a curing catalyst of 1 to 4. 5 parts by weight, 1 talc as a scale-like filler
9 to 70 parts by weight are mixed and HDI type isocyanate is used as a curing agent.

Therefore, according to the above-mentioned embodiment, since the polyether polyol as the main component is mixed with the polyether polyol having a high hydroxyl value and the tin catalyst in a predetermined amount, the curing of the coating film can be promoted and the overcoating can be promoted. The adhesion to the coating film and the weather resistance can be improved, and the time from application to use can be shortened.

Further, since a predetermined amount of talc as the scale-like filler is mixed, the collision energy can be dispersed by the talc and the coating film can be prevented from peeling.

Furthermore, since the curing agent is an aliphatic isocyanate, the reactivity with the main agent is improved, the coating film is given flexibility and the collision energy is absorbed. Therefore, it is possible to prevent the coating film from peeling off due to the impact of flying stones or the like.

By the way, although the polyether polyol is used as the polyol which is the main component of the main component in the above-mentioned examples, the present invention is not limited to this, and other polyesters are used. It is also possible to use polyols.

Further, although talc is used as the flaky filler in the above-mentioned examples, mica and acicular filler talc may be used in the case of carrying out the present invention.

Further, although the tin-based catalyst is used as the curing catalyst in the above embodiment, the curing catalyst is not limited to this and may be an amine-based catalyst.

The isocyanate used in the above examples is I
PDI etc. can be mentioned.

[0044]

As described above, the chip-resistant coating composition according to the first aspect of the present invention is a two-pack type chip-resistant coating composition comprising a main component containing a polyol as a main component and a curing agent containing an isocyanate as a component. 2 to 5 parts by weight of a polyol having a hydroxyl value of 500 to 1000 relative to 45 parts by weight of a polyol having a hydroxyl value of 500 or less in the base material.
1 to 4.5 parts by weight of a curing catalyst are mixed.
Therefore, since the polyol, which is the main component, is mixed with a predetermined amount of the polyol having a high hydroxyl value and the curing catalyst,
It is possible to accelerate the curing of the coating film, improve the adhesion to the top coating film and the weather resistance, and shorten the time until it can be used after coating.

The chip-resistant coating composition of the invention of claim 2 is
In the main agent according to claim 1, the hydroxyl value is 500 to 10 relative to 45 parts by weight of the polyol having a hydroxyl value of 500 or less.
2 to 5 parts by weight of a polyol of 00 and 1 to a curing catalyst.
4.5 parts by weight, and further 19 to 70 parts by weight of a scale-like filler are mixed. Therefore, in particular, since the scale-like filler is mixed in a predetermined amount, the collision energy can be dispersed by the scale-like filler, and the adhesion to the top coat film can be further improved.

The chip-resistant coating composition of the invention of claim 3 is
An aliphatic isocyanate is used as the curing agent according to claim 1 or 2. Therefore, in particular, reactivity with the main agent is improved, flexibility is imparted to the coating film, and collision energy is absorbed, so that the coating film can be prevented from peeling off due to the impact of a flying stone or the like.

[Brief description of drawings]

FIG. 1 is a table showing the composition and test results of chip-resistant coating compositions of Examples and Comparative Examples of the present invention.

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 1

[Correction method] Change

[Correction content]

[Figure 1]

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Jun Takahashi 1141, Okawagahara, Iino, Fujioka-cho, Nishikamo-gun, Aichi 1 Aisin Kako Co., Ltd. Toyota Motor Co., Ltd. (72) Inventor Hiroshi Ito 1 Toyota Town, Toyota City, Aichi Toyota Motor Co., Ltd.

Claims (3)

[Claims] 1. A two-pack type chip-resistant coating composition comprising a main component containing a polyol as a main component and a curing agent containing an isocyanate as a component, wherein a polyol 45 having a hydroxyl value of 500 or less is contained in the main component.
A chip-resistant coating composition comprising 2 to 5 parts by weight of a polyol having a hydroxyl value of 500 to 1000 and 2 to 4.5 parts by weight of a curing catalyst with respect to parts by weight. 2. A hydroxyl value of 500 to 1 relative to 45 parts by weight of a polyol having a hydroxyl value of 500 or less in the main agent.
2 to 5 parts by weight of 000 polyol and 2 of curing catalyst
.About.4.5 parts by weight and 19 to 70 parts by weight of the scale-like filler are mixed, and the chip resistant coating composition according to claim 1. 3. The curing agent according to claim 1, wherein the curing agent contains an aliphatic isocyanate as a component.
The chip-resistant coating composition according to.