WO2016163573A1 - Fire-resistant adhesive composition, fireproof sandwich panel using same, and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a fire-resistant adhesive composition, a fire-resistant sandwich panel using same, and a manufacturing method thereof, and provided according one embodiment of the present invention are the fire-resistant adhesive composition comprising: 70-95 wt% binder; 1-10 wt% aerogel; and an additive for the remainder, the fire-resistant sandwich panel using the fire-resistant adhesive composition, and the method for manufacturing the fire-resistant sandwich panel.

Description

 【Specification】

 [Name of invention]

 Refractory adhesive composition, the fireproof sandwich panel which applied this, and its manufacturing method

 Refractory adhesive composition, the fireproof sandwich panel which applied this, and its manufacturing method are related.

 Background Art

 Currently commercially available sandwich panels, mainly using polyurethane foam as a core material, which has the disadvantage of being vulnerable to fire or heat.

 Specifically, the polyurethane product is a material that is easily burned by fire or heat, which can further spread fire or heat. In addition, when the polyurethane foam is carbonized, smoke and toxic gases are generated, which may cause a secondary risk.

 However, studies to improve the light weight and thermal insulation of the core material has been mainly made in the field, and research to improve the fire resistance is insufficient.

 [Detailed Description of the Invention]

 [Technical problem]

 In order to improve the fire resistance of the sandwich panel pointed out above, the present inventors propose the following findings based on a material for adhering the core material of the sandwich panel, that is, an adhesive composition.

 Specifically, in one embodiment of the present invention, a binder, an airgel, and an additive may each provide a fire resistant adhesive composition, which includes a specific content.

 In another embodiment of the present invention, by applying the refractory adhesive composition may be provided with a fire-resistant sandwich panel, the different cores are bonded.

 In another embodiment of the present invention, a method for manufacturing the fire resistant sandwich panel may be provided.

 Technical Solution

In one embodiment of the present invention, 70 to 95% by weight of the binder; 1 to 10 parts by weight of airgel _^0/0; And a remainder additive; ᅳ

 The airgel may be a silica airgel, hydrophobic fumed silica, or hydrophilic fumed silica.

 Independently of this, the airgel may be in powder form, granule form, or a mixture thereof.

 The binder is a silicate (silicate), modified silicate (metamorphic silicate),

It may include one or two or more silicates selected from the group comprising potassium silicate, tetraethly orthosilicate (TEOS), and tetramethyl orthosilicate (TMOS).

 Meanwhile, the additive may be selected from surfactants, surface leveling agents, water resistant additives, and combinations thereof.

In another embodiment of the present invention, the crab 1 heat insulation core; A second insulating core; And the first heat insulating core material, and wherein the first adhesive layer positioned between two heat-insulating core material; and said first adhesive layer it contains silver, 70 to 95 parts by weight of a binder ⁰ /; An airgel of 1 to 10 weight ⁰ / .; And the remainder of the additive; provides a fireproof sandwich panel.

 The first adhesive layer may be foamed by heat or fire—to be converted into a first foam layer.

 The thickness of the first adhesive layer may be 500 to 1 匪.

 The thickness of the first foam layer may be 5 to 20 mm.

 The thickness of the first insulation core member and the second insulation core member may be 5 to 50 mm, respectively.

 In this regard, the structure of the first adhesive layer may be a single layer or a double layer. Alternatively, it may be a multi-layer structure of three or more layers.

 The sandwich panel, the first iron plate located on the outer surface of the crab 1 heat insulation core material; And a second adhesive layer positioned between the crab 1 heat insulating core material and the first iron plate.

 In addition, a second iron plate located on the outer surface of the second insulating core member; And a third adhesive layer positioned between the second heat insulation core member and the second iron plate.

The binder of the second adhesive layer and the adhesive layer 3 to, respectively, 70 to 95 parts by weight _^0/0; 1-10% by weight aerogels; And the remainder of the additive; may be included. In this case, the second adhesive layer and the third adhesive layer may be foamed by heat or fire, respectively, to be converted into a second foam layer and a third foam layer, respectively.

 The thicknesses of the second adhesive layer and the third adhesive layer may be 500 to 1 mm, respectively.

 The thicknesses of the second foam layer and the third foam layer may be 5 to 20 mm, respectively. The first insulation core member and the second insulation core member may each have a board shape.

 Independently of this, the first insulation core and the second insulation core, respectively, polyurethane, expanded polystyrene (EPS), extruded polystyrene

 (extruded polystyrene, XPS), glass wool (glass wool), mineral wool (mineral wool) and may be made of any one material selected from the group containing them.

 In another embodiment of the present invention, 70 to 95% by weight of the binder; 1 to 10% by weight aerogels; And a balance additive; preparing a first fire resistant adhesive composition comprising: a step; And applying the first refractory adhesive composition between the first heat insulating core member and the second heat insulating core member, thereby adhering the first heat insulating core member and the second heat insulating core member.

70 to 95 parts by weight of a binder _^0/0; 1-10% by weight aerogels; And preparing a first refractory adhesive composition, the balance comprising additives; preparing a mixture comprising the binder, the airgel, and the water; And adding the additive to the mixture and stirring to obtain the first refractory adhesive composition.

 Applying the crab 1 refractory adhesive composition between the first heat insulating core and the crab 2 heat insulating core to bond the first heat insulating core and the crab 2 heat insulating core; Applying to one surface; And laminating the second heat insulating core material on the crab 1 refractory adhesive composition coated surface.

Specifically, in the step of applying the crab 1 refractory adhesive composition on one surface of the first heat insulating core material, the coating amount of the first fire resistant adhesive composition per area of the crab 1 heat insulating core material may be 1.4 to 2.8 kg / n. . On the other hand, applying the first refractory adhesive composition between the first heat insulating core material and the second heat insulating core material, the step of adhering the first heat insulating core material and the second heat insulating core material; Subsequently, 70 to 95% by weight of the binder; Preparing a, type 2 fire-resistant adhesive composition comprising a; 1-10 airgel, and the balance of the additive by weight _^0/0; And bonding the first iron plate to the outer surface of the first end core material by applying the second refractory adhesive composition.

 Specifically, applying the second refractory adhesive composition to the outer surface of the first heat insulating core material, adhering the first iron plate; the step of applying the second fire resistant adhesive composition to the outer surface of the first heat insulating core material; And laminating the crab iron plate on the second refractory adhesive composition coated surface.

 In the step of applying the second fire resistant adhesive composition to the outer surface of the first heat insulating core material, the coating amount of the second fire resistant adhesive composition per area of the first heat insulating core material, may be 1.4 to 2.8 kg / ii.

In addition, applying the second refractory adhesive composition to the outer surface of the first heat insulating core material, bonding the first iron plate; Then, 70 to 95 weight of ⁰ /. Binder; An airgel of 1 to 10 weight ⁰ / .; And a balance additive; preparing a crab 3 refractory adhesive composition; And adhering the second iron plate to the outer surface of the second insulation core material by applying the third refractory adhesive composition.

 In the step of applying the third refractory adhesive composition on the outer surface of the second heat insulating core material, the coating amount of the crab 3 refractory adhesive composition per area of the second heat insulating core material may be 1.4 to 2.8 kg / iif.

 Advantageous Effects

 Fire-resistant adhesive composition according to an embodiment of the present invention, by foaming by the fire or heat to form a foam layer can not only suppress the spread of the fire or heat, but also prevents secondary risks such as smoke, harmful gases can do.

 Refractory sandwich panel according to another embodiment of the present invention, by including the adhesive layer formed by applying the refractory adhesive composition, it is not only excellent in fire resistance and heat resistance, the secondary risk can be reduced accordingly.

According to yet another embodiment of the present invention, a method of manufacturing a fireproof sandwich panel may be achieved by simply applying the fireproof adhesive composition to prevent fire having excellent performance. Corresponds to the method for producing a sandwich panel.

 [Brief Description of Drawings]

 1 schematically shows the shape of a fire resistant sandwich panel according to an embodiment of the present invention.

 Figure 2 is a photograph of one surface of the heat insulating core material used in the manufacture of one embodiment of the present invention.

 3 is a photograph of a fireproof sandwich panel manufactured according to an embodiment of the present invention.

 Figure 4 schematically shows the shape of the refractory sandwich panel according to one embodiment of the present invention.

 5 and 6 are photographs taken of the refractory sandwich panel manufactured according to another embodiment of the present invention.

 7 to 9 are photographs taken after the fireproof sandwich panel is exposed to fire according to an embodiment of the present invention. Specifically, FIG. 7 is a photograph of the exposed surface, and FIG. 8 is a photograph of the side surface. 9 is a photograph of both the exposed and unexposed sides of the firearm by cutting the form 1 sandwich panel. 10 is a photograph of a scene in which a fireproof sandwich panel is exposed to fire according to another embodiment of the present invention. FIG. 1 is a photograph of the exposed surface, and FIG. 12 is a photograph of the side surface.

 [Best form for implementation of the invention]

 Hereinafter, embodiments of the present invention will be described in detail. However, this is presented as an example, by which the present invention is not limited and the present invention is defined only by the scope of the claims to be described later.

In one embodiment of the present invention, 70 to 95% by weight of the binder; An airgel of 1 to 10 weight ⁰ / .; And the additive of the balance; provides a fire resistant adhesive composition.

Aqueous fire retardant, which, together with the binder which expands and expands upon exposure to fire or heat, includes the additive which improves the properties of the aerogels and other compositions, which are materials of very low thermal conductivity. Corresponds to the adhesive composition. Specifically, the binder, the additive, and the water may be included in the internal pores of the airgel. When the binder is expanded and expanded in a high temperature environment such as fire or heat, the airgel containing the binder in the internal pores may also be expanded and expanded, and the foaming rate and the foam density at this time may be excellently expressed. As will be described later, when the different core materials are adhered by applying the fire resistant adhesive composition, a sandwich panel having an adhesive layer formed by the fire resistant adhesive composition may be manufactured.

 When the core material located outside of the sandwich panel is exposed to fire or heat, the adhesive layer located inside the core material is expanded and converted into a foam layer, and the foam layer suppresses diffusion of heat and transfer of heat and at the same time, the adhesive layer The core located inside can be protected to prevent secondary hazards (eg smoke, harmful gases, etc.) that can be caused by carbonization.

 That is, the fire resistant adhesive composition has the advantage of not only providing fire resistance and heat resistance to the sandwich panel manufactured by applying the same, but also preventing secondary risks caused by fire or heat.

As stated previously, the binder based on the total 100% by weight of said fire-resistant adhesive composition is 70 to 95 parts by weight _^0/0, wherein the airgel is a number ranging from 1 to 10 parts by weight _^0/0, and the additive is an amount of glass, thus The reason for limiting the content of each substance is as follows.

Binders: 70 to 95 parts by weight ^_0/0

If the content of the binder, the fire-resistant adhesive composition exceeds 95% by weight, since the foaming performance may decrease as the content of the airgel is relatively reduced, there is a need to be limited to not more than 95 wt. ^_0/0.

However, when less than 70% by weight, the foaming ratio of the binder itself, low decrease in firing performance due to its low content, and the adhesive layer formed by using such a composition because of a problem showing the low strength, 70 parts by weight _^0/0 It is limited to the above.

Airgel: 1 to 10 parts by weight ^_0/0

If the content of the airgel, the fire-resistant adhesive composition exceeds 10 parts by weight _^0/0, due to its high content is difficult to be uniformly dispersed within the composition, the productivity Cause deterioration. In addition, the viscosity of the composition may increase rapidly, and due to the limitation of self leveling, there is a limit to forming an adhesive layer with a uniform thickness when using such a composition. Considering these points, the content of the airgel, the fire-resistant adhesive composition needs to be limited to not more than 10 wt. _^0/0. However, in case of too little content to less than 1 wt. ⁰ /., So the effect of imparting the heat resistance by the airgel insignificant, bayida limited to 1 wt. _^0/0 above.

 Additives: Depending on the desired properties, the additives may be included as remainder in the refractory adhesive composition.

 Hereinafter, each component of the fire resistant adhesive composition provided in one embodiment of the present invention will be described in more detail.

 First, description of the airgel is as follows.

 The airgel is not limited to hydrophilic or hydrophobic. That is, whether the hydrogel is hydrophobic or hydrophilic does not affect the fire resistance, heat resistance, or foaming performance of the fire resistant adhesive composition comprising the same.

 Specifically, a hydrophilic or hydrophobic silica aerogel may be used as the aerogel, and a hydrophilic or hydrophobic fumed silica may be used in place of the aerogel.

 Independently of this, the airgel may be in powder form, granule form, or a mixture thereof. In the case of the powder form,

The average particle diameter of the airgel is not particularly limited.

 Description of the binder is as follows.

 As mentioned above, the binder is not particularly limited as long as it can expand and expand in a high temperature environment (for example, a firearm).

 For example, silicate (melicate), metamorphic silicate (metamorphic silicate),

It may include one or two or more silicates selected from the group comprising potassium silicate, tetraethly orthosilicate (TEOS), and tetramethyl orthosilicate (TMOS).

The binder may also be in powder form, granule form, or a mixture thereof. In the case of the powder form, the average particle diameter of the binder There is no restriction in particular.

 On the other hand, the description of the additive is as follows.

 The additives have various functionalities with respect to the refractory coating composition.

It is for imparting or improving physical properties, and may be selected from a surface active agent, a surface leveling agent, a water resistant additive, and a combination thereof.

 Description of each additive is as follows ᅳ

 First, when the binder is a hydrophilic silicate and the airgel is hydrophobic, it is necessary to further include the surfactant to improve dispersibility. That is, it may be to serve as the surfactant dispersant.

 In this case, the surfactant may be active at pH 2 to 12. For example, the surfactant may be polyalkylene oxide silane, sodium alkyl diphenyloxide disulfonate, polyoxyethylene alkylether sulfate,

It may be one, or two or more kinds selected from the group comprising polyoxyethylene tridecyl ether sulfate and sodium alkyl diphenyloxide disulfonate.

 In some cases, in order to improve the fluidity of the adhesive layer formed using the fire resistant adhesive composition, the surface leveling agent may be further included. For example, the surface leveling agents include amine oxides, alkyl carbohydrate esters, alkoxylated polysiloxanes, dimethyl polysiloxanes, and alkyl polyacrylates. It may include at least one selected from the group containing (poly alkyl acrylate).

 In addition, in order to improve the water resistance of the fire resistant adhesive composition, a water resistant additive may be further included. That is, the other additives, calcium hydroxide,

It may be a water-resistant additive containing at least one selected from the group containing magnesium oxide, magnesium hydroxide, sodium carbonate, and montmorillonite.

At this time, the content of the water-resistant additive in the fire resistant adhesive composition may be less than 1% by weight. When the amount of the additive more than 1 parts by weight _^0/0, the composition It is difficult for the additives to be uniformly dispersed and cause a decrease in productivity. In another embodiment of the present invention, the crab 1 heat insulation core; Crab 2 insulation heartwood; And a first adhesive layer positioned between the first heat insulating core material and the second heat insulating core material, wherein the first adhesive layer comprises: 70 to 95 wt% of a binder; 1-10% by weight aerogels; And the remainder of the additive; provides a fireproof sandwich panel.

 This corresponds to a fire-resistant sandwich panel, in which the first adhesive layer of the composition is located between the first and second heat insulating cores, which is not only excellent in fire resistance and heat resistance, but also a secondary risk can be reduced. do.

 Hereinafter, since the description of the composition is as described above, each component of the refractory sandwich panel except for this will be described in detail.

 The first adhesive layer may be foamed by heat or fire to convert to the first foam layer.

 Specifically, the Crab 1 adhesive dance, the same as the composition described above,

Inner pores of the airgel, the binder, the blowing agent, and may be in the form containing the water. Accordingly, when the binder is expanded and expanded in a fire or hot environment, the airgel including the binder in the internal pores may also be expanded and expanded, and the foaming rate and the foam density at this time may be excellently expressed. have.

 As a result, when the core material (for example, the first heat insulating core material) located outside the sandwich panel is exposed to fire or heat, the first adhesive layer located inside the first heat insulating core material is expanded and foamed so that the first foam is foamed. Converted into a layer, wherein the first foam layer suppresses diffusion of heat and transfer of heat, and protects the core material (for example, the second insulating core material) located inside the first adhesive layer and is generated by carbonization. Secondary hazards (eg smoke, harmful gases, etc.) that can be avoided can be prevented.

 In this case, the thickness of the first adhesive layer may be 500 urn to 1 mm.

 When the thickness of the first adhesive layer is less than 500 μτα, its thickness is too thin to expect fire resistance, and when it exceeds 1 画 ol, the coating layer is too thick and may rather inhibit heat insulation.

The thickness of the first foam layer formed by foaming the first adhesive layer in the thickness range may be 5 to 20 mm, and supports an excellent foaming ratio corresponding to a thickness of 1000 to 2000 times higher than before the foaming. Of the sandwich panel Fire resistance and heat resistance can be excellently expressed.

 The thickness of the first insulation core and the second insulation core may be 5 to 50 mm, respectively.

 The structure of the first adhesive layer may vary according to the thicknesses of the first heat insulating core material and the second heat insulating core material.

 Specifically, when the thickness of the first insulation core and the second insulation core is 5 to 30mm, respectively, the structure of the first adhesive layer may be a single layer or a double layer.

 On the contrary, when the thicknesses of the first insulation core member and the second insulation core member are each 30 to 50 mm or more, the structure of the first adhesive layer may be a multilayer structure of three or more layers. On the other hand, the sandwich panel, the first iron plate located on the outer surface of the first heat insulating core material; And a second adhesive layer located between the crab 1 heat insulating core material and the first iron plate.

 Double and a second iron plate located on the outer surface of the second insulating core material; And a third adhesive layer positioned between the second heat insulating core material and the crab iron plate.

 In such a structure, the fire resistant sandwich panel may be foamed secondly after the second adhesive layer and / or the crab 3 adhesive layer are primarily foamed when exposed to heat or fire. As the adhesive layers are sequentially foamed as described above, the insulating cores positioned inside the sandwich panel may be more excellent in protecting against fire or heat.

 The second adhesive layer and the crab 3 adhesive layer, respectively, 70 to 95% by weight of the binder; 1-10% by weight aerogels; And the remainder of the additive; may be included.

 In this case, the second adhesive layer and the third adhesive layer may be foamed by heat or fire, respectively, to be converted into a second foam layer and a third foam layer, respectively.

 The thicknesses of the second adhesive layer and the third adhesive layer may be 500 / to 1 mm, respectively.

When the thicknesses of the 2 ^' adhesive layer and the third adhesive layer are less than 500 um, respectively, the thickness is too thin, so it is difficult to expect fire resistance, and when the thickness exceeds 1 _mm , the coating layer is too thick.

A second formed by foaming the crab 2 adhesive layer and the crab 3 adhesive layer in the thickness range; The thickness of the foamed layer and the third foamed layer may be 5 to 20 2, respectively, to support an excellent foaming rate corresponding to a thickness increased by 1000 to 2000% compared to the foaming, and thus the fire resistance and Good heat resistance can be expressed ᅳ

 The form of the said 1st heat insulation core material and a 2nd heat insulation core material is not specifically limited, respectively. For example, it may be a board shape.

 Independently of this, the materials of the first heat insulating core material and the second heat insulating core material are not particularly limited. For example, polyurethane, expanded polystyrene (EPS), extruded polystyrene (XPS), glass wool, glass wool and any one selected from the group containing them It may be made of the material of.

In another embodiment of the present invention, 70 to 95 weight ⁰ /. Binder; An airgel of 1 to 10 weight ⁰ / .; And a balance of additives; preparing a first fire resistant adhesive composition; And applying the first refractory adhesive composition between the first heat insulating core member and the second heat insulating core member, thereby adhering the first heat insulating core member and the second heat insulating core member.

 This corresponds to a method for producing a fire resistant sandwich panel having the above-described excellent properties by a simple method of applying the fire resistant adhesive composition of the above-described composition to the first fire resistant adhesive composition.

 Since the description of the composition is the same as described above, it will be described in detail each step of the method for producing the refractory sandwich panel except for this.

 70 to 95 wt% binder; 1-10% by weight aerogels; And preparing a first refractory adhesive composition, the balance comprising additives; preparing a mixture comprising the binder, the airgel, and the water; And said

Injecting the additive to the mixture, and stirring to obtain the first refractory adhesive composition; may be included.

This corresponds to the step of preparing a fire resistant adhesive composition of the above-described composition. Applying the first fire resistant adhesive composition between the first heat insulating core material and the second heat insulating core material to bond the first heat insulating core material and the second heat insulating core material to each other; Applying to one surface; And And laminating the second heat insulation core material on the first fire resistant adhesive composition coated surface.

 Specifically, in the step of applying the crab 1 refractory adhesive composition to one surface of the first heat insulating core material, the coating amount of the first fire resistant adhesive composition per area of the first heat insulating core material, may be 1.4 to 2.8 kg / irf. .

 When satisfying the limited range, a first adhesive layer having a thickness of 500 to 1 mm may be formed between the first heat insulating core material and the second heat insulating core material. That is, limiting the coating amount of the crab fireproof adhesive composition per area of the first heat insulating core material to the above range is the same as the reason for ultimately limiting the thickness of the first adhesive layer to 500 ΛΠ to 1 隨, which has been described above.

 On the other hand, laminating the second heat insulating core material on the first fire-resistant adhesive composition coating surface; Thereafter, drying it; may further include. Specifically, the time required for drying depends on the thickness of the first adhesive layer. For example, when the thickness of the first adhesive layer is formed to 0.5 to 1 kPa, 4 to 6 hours at room temperature, 1 to 2 hours at 60 ° C are required.

 It is not necessary to apply pressure during the drying, and if pressure is applied, it is difficult to control the thickness of the first adhesive layer formed.

On the other hand, by applying the first fire-resistant adhesive composition between the first heat insulating core material and the 12 heat insulating core material, bonding the first heat insulating core material and the second heat insulating core material; Then, 70 to 95 parts by weight of a binder _^0/0; 1-10% by weight aerogels; And remaining additive; preparing a crab fireproof adhesive composition; And bonding the first iron plate to the outer surface of the first heat insulating core material by applying the second fire resistant adhesive composition.

 Specifically, bonding the first iron plate by applying the second fire resistant adhesive composition to the outer surface of the first heat insulating core material, the step of applying the second fire resistant adhesive composition to the outer surface of the first heat insulating core material; And laminating the first iron plate on the second refractory adhesive composition coated surface.

In the step of applying the second fire resistant adhesive composition on the outer surface of the first heat insulating core material, the coating amount of the second fire resistant adhesive composition per area of the first heat insulating core material, may be 1.4 to 2.8 kg / irf. When satisfying the limited range, a second adhesive layer having a thickness of 500 μm to 1 μm may be formed between the first heat insulating core material and the first iron plate. That is, limiting the coating amount of the second fire resistant adhesive composition per area of the first heat insulating core material to the above range is the same as the reason for limiting the thickness of the crab 2 adhesive layer to 500 IM to 1 mm, which has been described above.

In addition, applying the second refractory adhesive composition on the outer surface of the crab 1 heat insulation core material, bonding the first steel plate; Then, 70 to 95 parts by weight of a binder _^0/0; An airgel of 1 to 10 weight ⁰ / .; And a balance additive; preparing a crab 3 refractory adhesive composition; And adhering the second iron plate to the outer surface of the second heat insulating core member by applying the third refractory adhesive composition.

In the step of applying the crab 3 refractory adhesive composition to the outer surface of the second heat insulating core material, the coating amount of the system 3 refractory adhesive composition per area of the crab 2 heat insulating core material may be 1.4 to 2.8 kg / in ² .

 When satisfying the limited range, a crab 3 adhesive layer having a thickness of 500 to 1 mm may be formed between the second heat insulation core member and the second iron plate. That is, limiting the coating amount of the crab 3 refractory adhesive composition per area of the second heat insulating core to the above range is the same as the reason for limiting the thickness of the third adhesive layer to 500 to 1 mm, which has been described above.

 MODE FOR CARRYING OUT THE INVENTION Hereinafter, preferred examples of the present invention and test examples thereof are described. However, the following examples are only preferred examples of the present invention and the present invention is not limited to the following examples.

 Example 1

 (1) Preparation of Refractory Adhesive Composition

First, the inorganic binder and the additive were mixed for 10 minutes at 500 rpm in a stirrer, and after adding an airgel thereto for 60 minutes at 100 rpm, the inorganic binder was 94 weight based on 100% by weight of the total composition. _^0/0, the additive total weight of 3 ⁰ /., and the silica airgel powder will contain 3% by weight) was prepared. Specifically, the inorganic binder is a silicate resin (Na ₂ Si0 ₃ , purchased from:

Mokyang Chemical Co., Ltd., and the additive is a surface active agent (Blso-based, purchased from Momentive), surface leveling agent ([(CH ₃ ) ₂ SK)] _3, purchased from BYK). Silica airgel powder (SiO, purchased from JIOS AEROGEL) was used.

 (2) Preparation of fireproof sandwich panel By applying the fireproof adhesive composition prepared above, fireproof sandwich panel of the following two types was prepared.

 1) Form 1: As shown in FIG. 1, the fire resistant adhesive composition was applied between two insulating cores.

 Each of the two insulation cores is made of a polyurethane foam by foaming a two-component polyurethane (RGF 3020) in which a main material and a hardener are mixed in a weight ratio of 1: 1, and then the polyurethane product is 300 mm long and 300 long. mm, and a board shape having a thickness of 10 mm 3. 2 is a photograph of one surface (viewed from above) of the insulation core member.

 The fire resistant adhesive composition was applied to one surface of one heat insulation core material, and the application amount was 2.8 kg / n per area of the heat insulation core material. Another heat insulation core material was laminated | stacked on the said fire-resistant adhesive composition application surface, and it was manufactured as the sandwich panel of the form 1.

 3 is a photograph of the side (viewed from the side) of such a form 1 sandwich panel. The thickness of the adhesive layer formed between the two insulation cores was 1 mm 3.

 2) Form 2: As shown in FIG. 4, the fire resistant adhesive composition was applied to both outer surfaces of the sandwich product of Form 1, and the iron plates were adhered to each other.

The fire resistant adhesive composition was applied to both outer surfaces of the form 1 sandwich product, the coating amount of which is 2.8 kg / m ^! It was. The iron plate was laminated | stacked on the said fire-resistant adhesive composition apply | coated surface, respectively, and it manufactured into the sandwich panel of the form 2.

 5 and 6 are photographs taken of such a form 2 sandwich panel at an oblique angle and side surface. The thickness of the adhesive layer formed between the two insulation cores was 1 mm, and the thickness of the two adhesive layers formed between the insulation core and the iron plate was 1 mm.

Examples 2 to 3 Refractory by the same process as in Example 1, except that the content of each raw material (ie, binder, aerogel, foaming agent, surfactant, surface leveling agent, other additives) is different as recorded in Table 1 below. Adhesive compositions were prepared and applied respectively to sandwich panels of Form 1 and 2.

 Comparative Examples 1 and 2

 Refractory adhesive composition by the same process as in Comparative Example 1, except that the content of each raw material (that is, binder, airgel, surfactant, surface leveling agent, other additives) is different as recorded in Table 1 below. And sandwich panels of form 1 and 2 were applied respectively.

Note that, in Comparative Examples 1 and 2. In addition, when manufacturing a fire-resistant adhesive composition, the content of the airgel such that the 10 parts by weight _^0/0 or more, by the airgel, the viscosity of the composition, and difficulty in being each raw material is uniformly dispersed There was a problem that the manufacturing cost is increased.

On the other hand, when producing a fire-resistant adhesive composition to less than 70 parts by weight _^0/0 of the binder, it should be the content of the other additives is increased relatively, the viscosity of the composition becomes low, difficult to form a coating this adhesive layer, even when forming the adhesive layer foaming ratio There was a problem with this being reduced.

 Table 1

Note: In the table, the total weight of the composition, based on 100 parts by weight ⁰ /, will display the content of each substance in a weight _^0/0.

 Test Example 1: Evaluation of Fire Resistance

The sandwich foam and panel prepared in Example 1 were exposed to fire at 1000 to 1200 ^° C. for 10 minutes using a gas torch to evaluate fire resistance. 7 to 9 are photographs taken of the sandwich product of Form 1 exposed to fire. Specifically, FIG. 7 is a photograph of the exposed surface, and FIG. 8 is a photograph of the side surface.

It is a photograph. In addition, Figure 9 is a photograph of both the exposed and unexposed side of the firearm by cutting the form 1 sandwich product.

 7 to 9, the insulation core of the cotton exposed to the fire was carbonized, but the insulation core of the cotton not exposed to the fire was observed not to be carbonized, and the insulation core exposed to the fire and the insulation were exposed to the fire. It was observed that a foam layer was formed between the uninsulated cores.

 Through this, the adhesive layer of the form 1 sandwich foam is foamed by the fire, which is converted into the foam layer, it can be evaluated that the heat insulation and the heat shielding the core not exposed to the fire can be protected.

 Moreover, the sandwich panel of the form 2 was also exposed to fire as shown in FIG. FIG. 1 is a photograph of the exposed surface, and FIG. 12 is a photograph of the side surface.

 10 to 12, the iron plate of the face exposed to the fire was modified by the fire, but not only the iron plate of the face not exposed to the fire but also the insulation cores located therein are not carbonized. It was observed that a foam layer was formed between the iron plate and the heat insulating core exposed to the fire, and the adhesive layer located between the two heat insulating cores was observed to remain unfoamed.

Thereby, the adhesive layer is located directly under the exposed iron plate by a firearm to fire in the form of two sandwich panels is foam primarily been converted to the foam _layer: As a result that the fire and heat is cut off is not exposed to the fire insulating core material Can be assessed as being able to be protected.

 Furthermore, it can be inferred that, if exposed to the fire for a higher temperature or for a long time, the adhesive layer located between the two insulation cores may be secondarily foamed.

 In addition, the same fire resistance evaluation was performed about each sandwich panel of Examples 2-4 and Comparative Examples 1-3, and the result is shown in following Table 2

Recorded. In Table 2, if the insulation core of the surface not exposed to fire is protected, it is marked o, and if it is not protected, it is marked X. Table 2

Through the evaluation of the fire resistance, if the sandwich panel of the form 1 or form 2 by applying the refractory adhesive composition according to an embodiment of the present invention, it is excellent in fire resistance and heat resistance when exposed to fire, and thus not exposed to fire It is proven that cotton can be prevented from carbonization and enjoy a secondary risk.

 The present invention is not limited to the above embodiments, but may be manufactured in various forms, and a person of ordinary skill in the art to which the present invention pertains does not change the technical spirit or essential features of the present invention. It will be appreciated that it can be implemented as. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

Claims

[Range of request]

 [Claim 1]

 0-95 weight% binder;

An airgel of 1 to 10 weight ⁰ / .; And

 It includes an additive of the remainder;

 Fireproof adhesive composition.

 [Claim 2]

 The method of claim 1 wherein.

 The airgel is,

 It is characterized in that the hydrophobic and hydrophilic silica airgel,

 Fireproof Adhesive Composition 접착제

 [Claim 3]

 The method of claim 1,

 The airgel is,

 A fire resistant adhesive composition, in powder form, granule form, or a mixed form thereof.

 [Claim 4]

 The method of claim 1,

 The binder,

 Silicates, metamoiphic silicate, potassium silicate, tetraethly orthosilicate (TEOS), and tetramethyl

It contains one or two or more silicates selected from the group containing orthosilicate (TMOS),

 Fireproof adhesive composition.

 [Claim 5]

 The method of claim 1,

 The additive,

 Surface active agent, surface leveling agent, water-resistant additives, and combinations thereof,

Fireproof adhesive composition.

[Claim 6]

 A first insulating core material;

 A second insulating core; And

 A first adhesive layer located between the first heat insulating core member and the second heat insulating core member;

The first adhesive layer, ₇₀ to 95% by weight of the binder; 1 to 10% by weight aerogels; And residue additives;

 Fireproof sandwich panel.

 [Claim 7]

 The method of claim 6, wherein:

 The first adhesive layer,

 A fireproof sandwich panel, which is foamed by heat or fire and converted into a first foam layer.

 [Claim 8]

 The method of claim 7, wherein

 The thickness of the first adhesive layer is,

 500! To 1 誦,

 Fireproof sandwich panel.

 [Claim 9]

 The method of claim 8,

 The thickness of the first foam layer is

 5 to 20 kPa,

 Fireproof sandwich panel.

 [Claim 10]

 The method of claim 9,

 The thickness of the first insulation core and the second insulation core is respectively,

 5 to 50 mm,

 Fireproof sandwich panel.

 [Claim 1 1]

The method of claim 10, The structure of the first adhesive layer,

 Single layer or double layer,

 Fireproof sandwich panel.

 [Claim 12]

 The method of claim 10,

 The structure of the first adhesive layer,

 It is a multilayer structure more than triple layer,

 Fireproof sandwich panel.

 [Claim 13]

 The method of claim 6,

 A first iron plate positioned on an outer surface of the first insulating core member; And

 And a second adhesive layer located between the first heat insulating core material and the first iron plate;

 Fireproof sandwich panel.

 [Claim 14]

 The method of claim 13,

 A second iron plate positioned on an outer surface of the second insulating core member; And

 Further comprising a third adhesive worm positioned between the second heat insulating core material and the second iron plate;

 Fireproof sandwich panel.

 [Claim 15]

 The method of claim 14,

 The second adhesive layer and the third adhesive layer, respectively,

70 to 95 parts by weight of a binder _^0/0; An airgel of 1 to 10 weight ⁰ / .; And the additive of the remainder;

 Fireproof sandwich panel.

 [Claim 16]

 The method of claim 15,

 The second adhesive layer and the crab 3 adhesive layer, respectively,

Foamed by heat or fire, to the second foam layer and the third foam layer, respectively Being converted,

 Fireproof sandwich panel.

 [Claim 17]

 The method of claim 15,

 The thickness of the second adhesive layer and the third adhesive layer, respectively,

 500 / m to 1 mm,

 Fireproof sandwich panel.

 [Claim 18]

 18. The method of claim 17 wherein

 The thickness of the second foam layer and the crab 3 foam layer, respectively,

 5 to 20 mm,-fireproof sandwich panel.

 [Claim 19]

 According to claim 16,

 The first insulation core and the second insulation core are respectively.

 In board shape,

 Fireproof sandwich panel.

 [Claim 20]

 The method of claim 16,

 The first heat insulating core and the second heat insulating core, respectively,

 Polyurethane, expanded polystyrene (EPS), extruded polystyrene (Extruded polystyrene, XPS), glass wool (glass wool), mineral wool (mineral wool) and any one material selected from the group containing them ，

 Fireproof sandwich panel.

 [Claim 21]

70 to 95 wt% binder; 1 to 10 parts by weight of airgel _^0/0; And a balance of additives; preparing a first refractory adhesive composition; And

And applying the crab 1 refractory adhesive composition between the heat insulating core member and the second heat insulating core member, thereby bonding the first heat insulating core member and the second heat insulating core member to each other. Method for manufacturing fireproof sandwich panel.

 [Claim 22]

 The method of claim 21,

 70 to 95 weight percent bar, 1 to 10 weight percent airgel; 1-5% by weight of additives; And a balance of additives; preparing a first fire resistant adhesive composition comprising:

 Preparing a mixture comprising the binder, the airgel, and the water; And

 Including the additive to the mixture, and stirring to obtain the first refractory adhesive composition; comprising,

 Method for manufacturing fireproof sandwich panel.

 [Claim 23]

 The method of claim 21,

 Adhering the first heat insulating core material and the second heat insulating core material by applying the crab fire resistant adhesive composition between a first heat insulating core material and a second heat insulating core material;

 Applying the fire resistant adhesive composition to one surface of the crab 1 heat insulation core material; And laminating the second heat insulating core material on the first fire resistant adhesive composition coated surface.

 Manufacturing Method of Fireproof Sandwich Panel ᅳ

 [Claim 24]

 The method of claim 23, wherein

 Applying the first fire resistant adhesive composition to one surface of the first insulating core;

 The application amount of the said 1st fireproof adhesive composition per area of the said 1st heat insulation core material is 1.4-2.8 kg / n,

 Method for manufacturing fireproof sandwich panel.

 [Claim 25]

 The method of claim 21,

Said first fire resistant adhesive between a first insulating core member and a second insulating core member Applying a composition, adhering the first heat insulating core material and the crab second heat insulating core material; Since the,

 70 to 95 wt% binder; 1 to 10% by weight aerogels; And a balance additive; preparing a crab 2 refractory adhesive composition; And

 Bonding the first iron plate to the outer surface of the first heat insulating core material by applying the second fire resistant adhesive composition;

 Method for manufacturing fireproof sandwich panel.

 [Claim 26]

 The method of claim 25,

 Adhering a first iron plate to the outer surface of the first heat insulating core material by applying the second fire resistant adhesive composition;

 Applying the type 2 refractory adhesive composition to an outer surface of the first insulating core member; And laminating the first iron plate on the second fire resistant adhesive composition coated surface.

 Method for manufacturing fireproof sandwich panel.

 [Claim 27]

 The method of claim 26,

 Applying the crab 2 refractory adhesive composition to the outer surface of the first insulating core;

The coating amount of the crab fireproof adhesive composition per area of the first heat insulating core is 1.5 to 2.8 kg / m ^! sign,

 Method for manufacturing fireproof sandwich panel.

 [Claim 28]

 The method of claim 27,

 Adhering giant iron plate to the outer surface of the crab heat insulating core material by applying the crab fire resistant adhesive composition; Since the,

 70 to 95 wt% binder; 1-10% by weight aerogels; And a residual additive; preparing a third refractory adhesive composition; And

Adhering the second iron plate to the outer surface of the second insulating core member by applying the crab 3 refractory adhesive composition; Method for manufacturing fireproof sandwich panel.

 [Claim 29]

 The method of claim 28,

 Applying the third fire resistant adhesive composition to an outer surface of a second heat insulating core;

 The coating amount of the crab 3 refractory adhesive composition per area of the second insulating core material is,

1.4 to 2.8 kg / u phosphorus,

 Method for manufacturing fireproof sandwich panel.