JP2003342517A - Nonflammable coating for building and building material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a non-flammable coating which can easily improve the non-flammability of building materials at low costs, and to provide a fire protection method using the same. <P>SOLUTION: This non-flammable coating is characterized by containing silica-calcium silicate as a main component. The non-flammable coating preferably further contains at least calcium carbonate, magnesium carbonate, an acrylic resin, and a colorant. The non-flammable coating may further contain a reinforcing material. The employment of the non-flammable coating enables the improvement in fire resistance, and can also give flame retardancy to flammable raw materials. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nonflammable paint for buildings such as buildings and condominiums, building materials, and a fireproofing method using the same.

[0002]

2. Description of the Related Art In recent years, the density and scale of buildings have rapidly increased, and once a fire occurs, it may lead to a serious accident. For this reason, it is preferable that the building material is made of a fireproof material that is as inflammable as possible to prevent fire.

[0003]

Therefore, a fireproof material has been developed, and in building a building, use of a fireproof material such as a non-combustible material, a quasi-incombustible material, or a flame-retardant material is a building standard method. And so on.

A typical example of such a fireproof material is a gypsum board. That is, in the case of constructing a building, gypsum board is used, or a base material whose surface is made up with a paint is used, and this is used for walls, ceilings and partitions.

Prevention of fire accidents, reduction of fire spread,
From the perspective of expansion due to flame spread and prevention of large scale,
It is desirable to make efforts to further enhance the fire protection performance of such materials.

The present invention has been proposed in view of the above, and an object thereof is to easily and inexpensively improve the nonflammability of buildings and building materials such as gypsum board. An object of the present invention is to provide a nonflammable paint for buildings and building materials and a fireproofing method using the same.

Another object of the present invention is to make the combustible material flame-retardant and improve the flame-retardant property by using the non-combustible coating material of the present invention.

[0008]

The present invention achieves the above-mentioned object by using silica / calcium silicate as a main component.

Further, it is characterized in that at least calcium carbonate, magnesium carbonate, an acrylic resin and a coloring material are mixed therein.

Further, a reinforcing material is mixed, and ceramic powder or carbon nanotube is used as the reinforcing material.

Further, the structure is such that a quasi-incombustible material, a combustible material, or an existing structure is applied, injected, or impregnated.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings.

[0013]

EXAMPLE A nonflammable coating material according to an embodiment of the present invention contains silica and calcium silicate as main components, and at least calcium carbonate, magnesium carbonate, acrylic resin, etc., and titanium oxide. It is configured by mixing a coloring material such as.

A compounding example of each material is as follows. Silica 50% by mass Calcium silicate 20% by mass Calcium carbonate 15% by mass Magnesium carbonate 10% by mass Acrylic resin 5% by mass Colorant (titanium oxide) Solid amount 0.060 kg / m ² or less

The chemical composition of silica is SiO ₂ , which is also called silicon dioxide or hydrogen-free silicic acid. Since this silica is an inorganic substance and has nonflammability, the total compounding ratio is set to about 50%.

Calcium silicate is a binary compound oxide of CaO and SiO ₂ , and there is a compound in which the molar ratio of CaO: SiO ₂ is 3: 1, 2: 1, 3: 2, 1: 1. .
Any of these can be used in the present invention. The reason why calcium silicate is used in the present invention is based on the fact that it is also an inorganic material and has nonflammability.

The chemical composition of calcium carbonate is CaCO
₃ , there are three types of structural transformations of calcite type, aragonite type and vaterite type, and any of them can be used in the present invention. This calcium carbonate is 850 ° in the atmosphere
Thermal decomposition from C to raw stone fire and carbon dioxide. Oxygen is indispensable for combustion, and carbon dioxide has a function of preventing combustion. Therefore, in the present invention, calcium carbonate is used as a raw material for the nonflammable paint. As a result, the partial pressure of oxygen in the combustion atmosphere is reduced and the combustibility is reduced.

The chemical composition of magnesium carbonate is MgCO ₃
Then, when heated, it becomes MgO. Since this magnesium carbonate is also an inorganic substance, it has nonflammability.

The acrylic resin is a resin obtained by polymerizing acrylic acid, methacrylic acid and its ester, and is suitable as a coating material because of its excellent colorless transparency, chemical resistance and weather resistance.
The thermoplastic paint is also called an acrylic lacquer, and there is also a thermosetting type, and the latter one is used in the present invention.

As the titanium oxide compound, basic Ti
O, weakly basic Ti ₂ O ₃ , amphoteric TiO ₂ , acidic T
There are 7-phase homologous series represented by iO ₃ and TinO _2n-1 . Either can be used in the present invention. Since the powder of titanium oxide is white, when this titanium oxide is mixed as a coloring material, the non-combustible paint exhibits white. Since this titanium oxide prevents ultraviolet rays, it has an advantage that it can also prevent deterioration due to ultraviolet rays.

In this embodiment, titanium oxide was used as the coloring material, but it goes without saying that other materials such as pigment may be used.

Further, it is needless to say that the compounding ratio of the above-mentioned materials is not limited to the above-mentioned examples and can be compounded within a range that does not significantly impair the effects of the present invention.

In addition to the above, a plasticizer, a dispersant, a thickener, an anti-sagging agent, a flattening agent, an antifungal agent, an ultraviolet absorber, a solvent, etc. may be added as necessary depending on the purpose and use. It is also possible to configure.

As described above, the nonflammable coating material of the present invention basically comprises an inorganic substance and a small amount of an organic substance, so that it is possible to prevent deterioration of the fireproof performance of the original substrate.

As a building material, gypsum boats are often used for walls, ceilings and thinning. Building Standard Act Article 2 Clause 9
The performance evaluation of this gypsum board applied with the non-flammable coating material of the present invention is as follows.

As the base material, a gypsum board 1 was used as shown in FIG. 1, and as the gypsum board 1, the following materials were specifically used. Shape: Flat plate surface shape: Smooth thickness: 0.07 mm to 0.1 mm Mass: 0.20 kg / m ² or less

Further, the surface of the gypsum board 1 is coated with the incombustible paint 2 according to the embodiment of the present invention in a thickness of 0.7 mm to 0.
1 mm, mass 0.20 kg / m ² or less, solid amount 0.14
The test piece was applied at not more than kg / m ² .

In the above-mentioned test body, the organic mass contained in the paint was 7 g / m ² , and the total organic mass including the board base paper of the gypsum board 1 used as the base material was the so-called "fireproof performance test".・ Because it satisfies the specified value of organic mass (400 g / m ² or less) specified in “Evaluation work method”, no gas toxicity test was conducted.

When an exothermic test was conducted on the above test body based on the method manual, the following good results could be obtained.

[Exothermic test] (1) The total calorific value for 20 minutes after the start of heating is 8 MJ / m ²
It was below. (2) For 20 minutes after the start of heating, there was no crack or hole penetrating to the back surface, which is harmful for fire prevention. (3) The maximum heat generation rate did not exceed 200 kW / m ² for 10 seconds or more for 20 minutes after the start of heating.

A semi-incombustible material such as a gypsum board 1 made by blending a gypsum raw material, an inorganic filler, a fiber reinforcing material, etc., has a higher fire prevention performance by increasing its thickness. Therefore, by applying an appropriate amount of the nonflammable paint of the present invention,
The fireproof performance can be improved very easily.

In coating, an air spray device composed of a spray gun, a non-combustible paint container, an air hose, a compressor and the like may be used to atomize the non-fuel and spray it onto the surface to be coated. In this case, since there is a risk of loss due to scattering and stains, a coating method using a roller brush may be adopted for the flat surface, and a brush may be used for the finer parts. Is also good.

When an air spray device is used, it is preferable to spray from a distance of about 20 cm to the surface to be coated because the coating film becomes thin and scattering easily occurs if it is too far from the surface to be coated.

When the desired effect cannot be obtained with one coating film on the surface to be coated, the required amount of coating film can be successively increased by coating several times, and the fireproof performance can be easily improved. be able to.

The material to be coated is not limited to the gypsum board 1, but can be applied to wood wool cement boards and other building materials.

When boards are used for interior / exterior construction in construction, a seam occurs between the materials. There is no problem if the required thickness is secured at this joint,
Generally, the seam is thin. Therefore, by adopting the fireproofing method of applying or injecting the nonflammable paint of the present invention to such a portion, the fireproofing performance can be easily ensured.

Further, fire protection performance can be provided by coating the surface of an appropriate existing structure.

FIG. 2 shows an example thereof. By coating the non-combustible paint 2 on the eaves 4 of the structure 3 such as a house, the exterior 5, the roof surface, etc., fireproof performance against a fire 6 such as a bonfire is provided. Can be improved or improved. It is also possible to apply the coating only to the required part.

Furthermore, it is possible to coat furniture such as a closet and other interiors, and to impregnate curtains to make the combustible material flame-retardant and hard to burn.

As a result, the fireproofing performance is improved, it is difficult to ignite a fire, and even if a part of the fire is ignited, the fire spreadability can be lowered, and the spread of the fire can be prevented. Further, since the main component of the nonflammable coating material of the present invention is an inorganic substance, it has a good gas generating property.

As another embodiment of the non-combustible coating material, a suitable amount of reinforcing material such as ceramic powder or carbon nanotubes is mixed according to the purpose and applied to form a coating film having a predetermined thickness. In addition to improving fire prevention performance, it is possible to improve mechanical strength and durability.

That is, the ceramic powder has excellent fire resistance and strength. Further, in recent years, carbon nanotubes have become relatively easy to produce by, for example, a vapor phase method, an arc discharge method, a plasma synthesis method, etc., and the production cost is gradually decreasing.

The carbon nanotubes are light in weight, have extremely high rigidity, and are excellent in mechanical strength, even though they are minute in units of nm. Further, since it is fine, has good dispersibility, and has good interfacial adhesion, it is easy to mix it with the nonflammable paint. Further, it is stable up to 750 ° C in the air and has excellent heat resistance.

Therefore, by applying a non-combustible paint containing this to a building, a building material or the like, in addition to the fire prevention performance, the strength and the durability are improved without increasing the special weight. Moreover, unlike ceramics, since it also has elasticity, it is possible to obtain a vibration-proof effect without cracking.

In mixing, since the surface of the carbon nanotube is smooth, it is preferable to perform a surface treatment such as metal coating in order to improve the binding property with other materials.

As the carbon nanotubes to be mixed,
According to the current manufacturing technology, it is preferable to use one having a diameter of 0.4 to 500 nm, but the present invention is not limited to this. The carbon nanotubes may have any length and can be cut to a desired length by electron beam irradiation.

[0047]

As described above, according to the present invention as set forth in claims 1 and 2, it is possible to easily improve the fireproof performance of the quasi-incombustible material without causing a significant cost increase.

According to the present invention as set forth in claims 3 and 4, the strength and durability can be improved in addition to the improvement of the fireproof performance.

According to claim 5, fire protection measures can be taken easily and inexpensively. Particularly, when the non-combustible paint according to claims 3 and 4 is used, it can be used as a vibration-proof material in Japan where there are many earthquakes. .

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a state in which a non-combustible coating material according to an embodiment of the present invention is applied to a material to be coated.

FIG. 2 is an explanatory diagram in which an incombustible paint is applied to an existing building to improve fire resistance.

[Explanation of symbols]

1 Gypsum board as a base material 2 non-combustible paint 3 buildings 4 below 5 Exterior 6 fire

Claims (5)

[Claims] 1. A nonflammable paint for buildings and building materials, which comprises silica / calcium silicate as a main component. 2. A non-combustible coating material for buildings and building materials, which is obtained by mixing at least calcium carbonate, magnesium carbonate, an acrylic resin, and a coloring material with the one described in claim 1. 3. A non-combustible paint for buildings and building materials, which is obtained by mixing a reinforcing material with the material according to claim 1. 4. The non-combustible paint for buildings and building materials according to claim 3, wherein the reinforcing material is made of ceramic powder or carbon nanotubes. 5. A fireproof construction method for a building or a building material, characterized by applying, injecting or impregnating a semi-incombustible material, a combustible material, or an existing building with the non-combustible paint according to claim 1. .