KR101151887B1 - Fire retardant paint - Google Patents

Abstract

PURPOSE: A flame-resistant paint is provided to have excellent flame retardance because cracks are not generated on a coated surface, thereby safely protecting a coated object from flames, and not generating harmful gases. CONSTITUTION: A flame-retardant paint comprises: 4-48 weight% of water glass with flame retardance and a binder function; 29-38 weight% of titania; 1-5 weight% of perlite for preventing cracks within a short time after coating by stabilizing humidity and residual water. Specifically, the flame-retardant paint comprises 45 weight% of water glass, 34 weight% of titania, 2 weight% of perlite, and residual water. The water glass is sodium silicate.

Description

Fire Retardant Paint

The present invention relates to a flame retardant paint, which is excellent in fire resistance and flame retardancy due to no cracking on the coating surface, and does not generate harmful gases, and thus relates to a flame retardant paint that is not harmful to the human body.

In general, industrial equipment materials used in industrial plants are exposed to high heat sources. In particular, industrial facilities used in the steel, steel and petrochemical sectors are rapidly aging due to high temperature heat in the process structure, and serve to transfer heat to the outside, causing heat loss. It can only be exposed to the working environment under adverse conditions.

Therefore, the development of paint that can solve this problem has been steadily raised.

In addition, paints generally used in indoor construction play a role of increasing the speed of fire when a fire occurs, and generate toxic gas, causing a lot of human damage, and are very vulnerable to fire.

And when high heat is transferred to the building structure when a fire occurs as described above, the structure is very weak by the heat occurs.

Recently, paint using water glass has been used to compensate for this.

However, as described above, paint using water glass was susceptible to cracking.

Therefore, the conventional paint has a lot of difficulties to prevent the durability of the building structure does not change even at high heat, and in indoor construction, there is a problem in preventing the toxic gas generated by the paint in case of fire and delaying the fire transition. It was.

In addition, when the conventional paint is coated on the industrial equipment materials, there is a limit to effectively control the heat source generated in the overall industrial equipment, and improve the environment of the production workplace.

The present invention has been invented according to the above-described requirements, and it is an object of the present invention to provide a flame-retardant paint which does not generate cracks on the coated surface, which is excellent in fire resistance and flame resistance, does not generate harmful gases, and is not harmful to the human body. .

The present invention for solving the above problems, 42 to 48% by weight of water glass, flame retardant and binder function, 29 to 38% by weight of titania, and perlite 1 to 5 to stabilize the humidity to prevent cracking in a short time after application It is characterized by comprising a weight% and the remaining weight% of water.

The present invention is also characterized by containing 45% by weight of water glass, 34% by weight of titania, 2% by weight of perlite and the remaining weight% of water.

In addition, the present invention is characterized in that the water glass is sodium silicate.

According to the present invention as described above, the crack does not occur for a long time after coating, it is very excellent in heat resistance fire resistance. Therefore, the present invention can safely protect the coating object from the fire when a fire occurs, can significantly slow the flame transition rate, it is possible to safely protect the coating object.

In addition, the present invention by containing the perlite, effectively delay the transition of the flame to the coating target, there is an effect that little toxic gas is generated in the event of fire. Therefore, when a fire breaks out in a building structure, it is possible to secure an evacuation time that can be evacuated, thereby preventing large-scale human damage, and not adversely affecting the environment.

In addition, since the present invention does not generate cracks for a long time after coating, oxygen or foreign matters do not directly contact the coating object, thereby improving corrosion resistance. Therefore, it can be effectively used for interior finishing materials.

1 to 5 are image diagrams for explaining the effects of the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

The flame retardant paint according to the present invention comprises 42 to 48% by weight of water glass, 29 to 38% by weight of titania, 1 to 5% by weight of ferrite, and the remaining weight% of water, and the materials are mixed by stirring.

The water glass is another name for silicate that is soluble in water, and refers to a compound in which an alkali metal is bonded to silica (SiO 2) in various molar ratios. Water glass includes sodium silicate, potassium silicate, lithium silicate and the like.

The water glass contains alkali metals having a strong hydrophilicity and has excellent caking and dispersing power, and thus is used in various applications such as cement, adhesives, and coatings.

The titania is called titanium dioxide (TiO ₂ ), and is generally used as a paint. In this embodiment, titania is preferably in the form of a powder.

The perlite is a general one produced by expanding natural minerals produced by volcanic activity called pearlite at a high temperature. At this time, the ferrite functions to stabilize the humidity to prevent the occurrence of cracks. In this embodiment, the perlite is preferably in the form of a powder.

The flame retardant paint of the present invention made of a mixture of the above constituents does not generate cracks for a long time after coating, and is excellent in heat resistance and fire resistance.

Therefore, the present invention can safely protect the coating object from the fire when a fire occurs, can significantly slow the flame transition rate, it is possible to safely protect the coating object.

In addition, the present invention, by containing the perlite, effectively delays the transition of the flame to the coating target, and because it is a natural raw material, there is an effect that almost no toxic gas occurs in the fire.

Therefore, when a fire breaks out in a building structure, it is possible to secure an evacuation time that can be evacuated, thereby preventing large-scale human damage, and not adversely affecting the environment.

In addition, since the present invention does not generate cracks for a long time after coating, oxygen or foreign matters do not directly contact the coating object, thereby improving corrosion resistance. Therefore, it can be effectively used for interior finishing materials.

As described above, the present invention has various effects. Therefore, when the present invention is used in an industrial structure, it is possible to secure an excellent working environment and safety of the worker, and when used in an indoor building structure, there is a side effect of ensuring an excellent living environment and safety of the user.

Hereinafter, the present invention will be described in detail through the following examples.

[Example]

The flame retardant paint of the present invention comprises 42-48 g of sodium silicate, 29-38 g of titania powder, 1-5 g of perlite powder, and water as the remainder, and the materials are stirred and mixed.

The titania powder is used in various paints and coating materials.

In general, paint made of a binder on a water glass substrate is used for coating such as wood for flame prevention.

However, such a water-based coating has a problem that cracks occur in a short time.

In the case of the flame-retardant paint of the present embodiment, by containing the perlite powder, when the flame-retardant paint is coated on the iron plate, brick, wood, etc., no crack occurs on the coating surface of the flame-retardant paint for a long time.

Table 1 below shows the time when cracks start to occur when the paint (A) and the flame retardant paint (B) of the present invention are coated on a ceramic plate, a brick, an aluminum plate, and wood after drying, and are kept dry. Table shown.

Application target / cracks Crack occurrence time Ceramic plate coated with A Cracks occur after 2.5 days Ceramic plate coated with B No cracking after 30 days A-coated brick Cracks in 2 days B-coated brick No cracking after 30 days Aluminum plate coated with A Cracks in 2 days Aluminum plate coated with B No cracking after 30 days A-coated wood Cracks after 3 days B-coated wood No cracking after 30 days

In addition, Figures 1 to 4 are images showing a state in which no crack occurs after 30 days after coating the flame retardant paint of the present invention on a ceramic plate, a brick, an aluminum plate, and a tree.

Looking at the Table 1 and Figures 1 to 4, when the flame-retardant paint of the present invention is coated on the coating target compared to the paint does not contain a perlite, it is confirmed that the crack is not easily generated, the cracking time is also significantly delayed. have.

In particular, the present invention, when coated on wood, by exchanging moisture with wood, the occurrence of cracking is prevented. The wood absorbs moisture in the atmosphere during the rainy season and at night under natural conditions, and releases moisture during the dry and during the day, thereby controlling the humidity on its own. It is not. At this time, the ferrite functions to stabilize the humidity, so as to prevent the occurrence of cracks in the flame retardant paint.

Therefore, the coating object coated with the present invention, when a fire occurs, the flame transfer rate is slow.

That is, since there is no crack in the coating surface of the coating target, the flame in contact with the coating surface of the coating target does not easily approach the coating target. Then, the coating target can be protected from the flame for a long time, through which the physical properties of the self are not easily changed.

In addition, since the flame-resistant paint of the present invention does not generate cracks for a long time after coating, oxygen or foreign matters do not directly contact the coating object, thereby improving the corrosion resistance.

On the other hand, Figure 5 (a) is an image of the iron plate coated with a flame-retardant paint of the present invention, Figure 5 (b) is an image showing the state of applying heat of 1100 ℃ through the iron plate coated with the flame-retardant paint of the present invention 5 (c) is an image showing a state in which heat is applied at 1200 ° C. through the iron plate coated with the flame retardant paint of the present invention, and FIG. 5 (d) shows the iron plate coated with the flame retardant paint of the present invention. As an image showing the state of applying heat of 1300 ℃ through, referring to Figure 5, it can be seen that the iron plate coated with the flame-retardant paint of the present invention is very improved in heat resistance fire resistance.

On the other hand, the flame-retardant paint of this invention produced the same effect similar to the said Example even if 45 g of sodium silicates, 34 g of titania powders, 2 g of perlite powders, and 19 g of water were mixed.

Claims (3)

42 to 48% by weight of water glass that functions as flame retardant and binder, 29 to 38% by weight of titania, 1 to 5% by weight of ferrite to stabilize the humidity and prevent cracking in a short time after application, and remaining weight% of water Flame retardant paint, characterized in that.
The method of claim 1,
Flame-resistant paint comprising 45% by weight of the water glass, 34% by weight of titania, 2% by weight of perlite, and the remaining weight% of water. The method according to claim 1 or 2,
The water glass is flame retardant paint, characterized in that sodium silicate.

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