JPH07117165A - Non-combustible building panel - Google Patents

Abstract

PURPOSE:To provide non-combustible characteristics accepted by the non- combustion test prescribed by a building standard method even when FRP is used in a skin layer by bonding a stone material and the core supporting the same by infiltrating an adhesive based on a resorcinol resin into an inorg. fiber. CONSTITUTION:A non-combustible building panel is obtained by bonding a stone material 1 and a honeycomb core 2 through an adhesive layer 3. The stone material 1 is a surface layer made thin for wt. reduction and the thickness thereof is set to, for example, 3-10mm. The honeycomb core 2 supports the surface stone material 1 and made of aluminum for the reduction of wt. and the thickness thereof is set to 10-30mm. As the adhesive used in the adhesive layer 3, a resorcinole resin is used. The resorcinol resin is a room temp. curable one and exerts no adherse effect on non-combustibility even when a relatively large amt. of the resoncinol resin is used.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a non-combustible building material panel. In particular, the present invention relates to a non-combustible building material panel in which a stone material and a core supporting the stone material are bonded with a resin containing resorcinol as a main component.

[0002]

2. Description of the Related Art In recent years, as a building material panel, one using a stone material for giving a high-class feeling has been in the spotlight. In order to reduce the weight of this stone panel, the stone material is thinned to form a surface layer, and the surface stone material is supported by, for example, an aluminum honeycomb core. On both sides or one side of the honeycomb core, FR is usually used for reinforcement in the lateral direction (direction perpendicular to the holes in the honeycomb), adhesion to stone materials or outer walls, and improvement of adhesion workability.
A skin layer such as P or a metal sheet is present. For the adhesion between the honeycomb core and the skin layer, the stone material, or the adhesion between the skin layer and the stone material, it is customary to use an adhesive containing an epoxy resin as a main component. Further, when FRP is used for the skin layer, curing of the FRP that is the skin layer and adhesion with the honeycomb core or the stone material may be simultaneously performed using a hot press or the like.

For building material applications, it is currently required that the material does not burn, that is, it does not burn. Therefore, the above-mentioned stone panel is also required to have such non-combustibility while using a combustible adhesive. In order for a building material to be recognized as non-combustible, it is necessary to pass both tests, a) base material test and b) surface test, in the Building Standards Law. In this case, a) the base material test is a test performed by placing the material in a furnace in an atmosphere of 750 ° C. If the temperature rise is 50 ° C or less even after a certain period of time, it is recognized as a non-combustible material. The b) surface test is a test in which the surface of the material is exposed to a flame. When the exhaust temperature curve is below a certain temperature and the smoke coefficient is below a certain value, it is recognized as a non-combustible material. In particular, it is usually difficult for a building material using an adhesive to pass a) the base material test because of the presence of combustible components.

As a prior art, there is a method of replacing an organic adhesive such as an epoxy resin which is a combustible component with a phosphate-based inorganic adhesive which is a non-combustible component. Although non-combustion is certainly achieved by this method, since the specific gravity of the phosphate adhesive is much larger than that of the usual organic adhesive, the weight increase of the stone panel is inevitable. Considering that the original purpose of the stone panel is to improve the workability by reducing the weight, this method is not preferable. Further, Japanese Patent Application Laid-Open No. 02-223440 discloses a method of making a non-combustible stone panel by significantly reducing the amount of an organic adhesive such as an epoxy resin which is a combustible component. According to this method, the amount of resin must be significantly reduced.
It is difficult to use, and when the skin layer is a metal sheet, the weight increase is inevitable compared to FRP. Further, during cutting, burrs are easily generated in the metal sheet portion which is the skin layer, and the workability is not good. Japanese Unexamined Patent Publication No. 03-081447 discloses a method of using a phenol resin having excellent nonflammability as an organic component of an adhesive or FRP. Since FRP can be used for the skin layer, it is a technology that can achieve nonflammability without impairing the lightness and machinability of the stone panel. However, since the phenol resin used for FRP is usually a heat-curable type, equipment such as hot pressing is required. Of course, the phenol resin can also be cured at room temperature by using an acid as a curing agent. However, in consideration of adhesion to stone materials, a material such as marble, which is weak against acid, may cause discoloration, which is not preferable in a stone panel that emphasizes a high-class ornamental feeling. Thus, from the viewpoint of equipment and energy, there are still points to be improved.

[0005]

DISCLOSURE OF THE INVENTION The present invention provides a non-combustible building material panel obtained by adhering a stone material and a honeycomb core,
An object of the present invention is to provide a non-combustible building material panel that has a non-combustible property that passes the non-combustible test defined by the Building Standards Law even if FRP is used for the skin layer and that can be manufactured without using heating equipment such as a hot press.

[0006]

The present invention adopts the following means in order to solve the above-mentioned problems. That is, a stone and a core supporting the stone are made to adhere by impregnating an inorganic fiber with an adhesive, and the adhesive is a) a resorcinol resin, a resorcinol copolymer resin, or a resin obtained by polymerizing a resorcinol resin. Resorcinol-based resin selected from, and b) a curing agent of resorcinol-based resin, a non-combustible building material panel, characterized in that the main component,
The above problem was solved by.

In addition to the above-mentioned components a) and b), the adhesive is c) a component selected from silicone oil, phosphate ester or alkyl biphenyl, and further d) an epoxy resin or a resorcinol resin. A component selected from compatible thermoplastic resins may be blended.

The present invention will be described in more detail. An example of the non-combustible building material panel of the present invention is shown in FIG. In FIG. 1, the non-combustible building material panel is formed by adhering a stone material 1 and a honeycomb core 2 through an adhesive layer 3. The stone material 1 is thinned to be a surface layer for weight reduction, and the thickness thereof is, for example, 3 mm to 10 mm. The honeycomb core 2 supports the surface stone material 1, and is made of, for example, aluminum for weight reduction. The thickness is, for example, 10 mm to 3
It is set to 0 mm. The adhesive layer 3 is made of an adhesive (FR) impregnated with an inorganic fiber in order to reinforce and improve adhesion and workability.
It is bonded with P). Reference numeral 4 denotes an FRP backskin layer provided on the side of the aluminum core 2 opposite to the stone-bonding side, by which the honeycomb is reinforced or the adhesion to the outer wall to which this stone panel is attached is enhanced. Note that metal sheets 3 and 4 may be used, and an adhesive may be provided on the surface to be bonded to the honeycomb or stone material.

Regarding the non-combustible building material panel thus constructed, at least as an adhesive used in the adhesive layer,
In the present invention, a resorcinol resin is used. Resorcinol resin, which is also called resorcinol resin, is a room temperature curable resin and does not adversely affect the nonflammability even when used in a relatively large amount. The resorcinol-based resin used in the present invention may be, in addition to the resorcinol resin simple substance, a co-condensation resin of resorcinol and phenol, and may be a resin alloyed by mixing the resorcinol resin with a phenol resin or the like. . Further, for the purpose of adjusting the balance between the strength of FRP and the adhesiveness between the components of the stone panel, the resorcinol-based resin may be modified with an epoxy resin or the like as long as the nonflammability is not impaired. For the same purpose, the following components may be further added.

That is, in order to increase the adhesive strength while maintaining nonflammability, silicone oil (including silicone varnish), phosphoric acid ester, alkyl biphenyl used as a heat medium, such as THERMS (Nippon Steel Chemical) 1 or 2 or more can be blended. In this case, the blending amount may be, for example, 5 to 30 wt parts with respect to 100 wt parts of the resorcinol resin. If it is less than 5 parts by weight, the effect is not so great, while if it exceeds 30 parts by weight, problems tend to occur in terms of noncombustibility. The silicone oil may be epoxy-modified at the terminal or side chain. It is preferable that the operating temperature range of the non-combustible hydraulic oil be room temperature or lower.

Further, a thermoplastic resin having compatibility with the epoxy resin or the resorcinol resin may be blended. Examples of the thermoplastic resin having compatibility with the resorcinol-based resin include alcohol-soluble copolymer nylon, polyvinyl formal, polyvinyl acetal and the like. In this case, the blending amount may be, for example, 1 to 15 wt parts with respect to 100 wt parts of the resorcinol resin. Less than 1 wt% is not very effective, while
If it exceeds the wt part, problems tend to occur in terms of noncombustibility.
The epoxy resin may be halogenated, eg brominated.
The curing agent for the resorcinol resin is not particularly limited and, for example, paraformaldehyde is used. The amount of the curing agent may be, for example, 1 to 30 wt parts with respect to 100 wt parts of the resorcinol resin.

In order to improve incombustibility, a flame retardant, that is, a halogen-free or halogen-containing flame retardant, or a flame retardant aid may be used.

The thickness of the stone material is preferably 3 mm to 10 mm, and the thickness of the honeycomb core is preferably 10 mm to 30 mm. The honeycomb core is preferably made of metal in terms of noncombustibility, but aluminum having a small specific gravity is particularly preferable from the viewpoint of weight reduction. As the inorganic fiber used together with the adhesive and contributing to the reinforcement and the adhesiveness improvement, for example, glass fiber, carbon fiber (pitch type, PAN type) or the like can be used.

Regarding the non-combustible building material panel thus constructed, at least as an adhesive used in the adhesive layer,
A resorcinol resin may be used. That is, for the FRP backskin provided on the side of the aluminum core opposite to the stone-bonded side, an adhesive other than the resorcinol-based resin, such as a phenol-based resin or an epoxy-based resin, may be used.

In this case, the amount of the resin used in the adhesive layer and the backskin layer is the test piece used in the base material test (length / width 40 mm, stone and honeycomb core thickness 50 mm).
In terms of, for example, it is possible to impregnate in an amount of 600 to 900 g / m ² . The non-combustible building material panel of the present invention may be manufactured, for example, by the method disclosed in JP-B-63-1164.

[0016]

【Example】

Example 1 As a resorcinol-based adhesive, 100 wt parts of a co-condensation resin of resorcin and phenol and 10 wt parts of paraformaldehyde (curing agent) were used. In this case, between the stone material with a thickness of 7 mm and the aluminum honeycomb with a thickness of 18 mm,
The above resorcinol-based adhesive was impregnated into glass fiber (abundance of 300 g / m ² ) in an amount of 220 g / m ² for adhesion.
Also, on the other side of the aluminum honeycomb, a resorcinol-based adhesive was added in an amount of 180 g / m ^{2 to} the glass fiber (300 g / m ²
Abundance) to reinforce. Adhesive conditions are 4-5
Pressing was performed at 30 ° C. for 5 hours with a pressing pressure of kg / cm ² . afterwards,
After drying, the solvent in the adhesive was scattered. The stone panel for building materials manufactured in this way was subjected to a non-flammability test based on a base material test according to the Building Standards Act.

Example 2 As a resorcinol-based adhesive, 100 wt parts of a co-condensation resin of resorcin and phenol, 10 wt parts of paraformaldehyde (curing agent), and 10 wt% of silicone oil were used.
Used. Other than that, the stone panel for building materials was manufactured similarly to Example 1, and the non-combustibility test was done.

Example 3 As a resorcinol adhesive, 100 wt parts of a resorcinol-phenol copolymer resin, 10 wt parts of paraformaldehyde, and 10 wt% of a non-halogen phosphate ester flame retardant "cresyl diphenyl phosphate (CDP)" were used. Used. Other than that, the stone panel for building materials was manufactured similarly to Example 1, and the non-combustibility test was done.

Example 4 As a resorcinol-based adhesive, 100 wt parts of resorcinol-phenol copolymer resin, 10 wt parts of paraformaldehyde, 10 wt parts of silicone oil, 10 wt parts of epoxy resin "EP-828", flame retardant "deca" 3 parts by weight of "bromodiphenyl ether (DBDPE)" and 2 parts by weight of Sb ₂ O ₃ were used. Other than that, the stone panel for building materials was manufactured similarly to Example 1, and the non-combustibility test was done.

The results are shown in Table 1 below.

[0021]

[Table 1] ─────────────────────────────────── No Adhesive composition Incombustibility test Organic component amount ( g / m ² ) ─────────────────────────────────── 1 Resorcinol-phenol co-condensation resin 100 Pass 800 Paraformaldehyde 10 ─────────────────────────────────── 2 Co-condensation resin of resorcinol-phenol 100 Passed 760 Paraformaldehyde 10 Silicone oil 10 ─────────────────────────────────── 3 Co-condensation resin of resorcinol-phenol 100 Pass 780 Paraformaldehyde 10 Phosphate 10 ──────────────────────────────────── 4 Resorcin- Phenol co-condensation resin 100 Paraformaldehyde 10 Almost 760 Silicone oil 10 Passed Epoxy resin 10 Flame retardant (DBDPE) 3 Flame retardant (Sb ₂ O ₃ ) 2 ────────────────── ──────────────────

[0023]

EFFECTS OF THE INVENTION The base material test of the Building Standards Law was passed. 50
Even if a resin of 800 g / m ² in terms of mm height is used, nonflammability can be ensured, so that FRP can be used for the skin layer. Incidentally, in the prior art (JP-A-02-223440), 750 g / m ² was a comparative example. Since it can be cured at room temperature, there is no need to use a hot press or the like, which is advantageous in terms of energy. In addition, since the room temperature curing type of the phenol resin uses a strong acid as a curing agent, it is difficult to discolor the marble when it is used for adhering the marble. On the other hand, since the resorcinol type resin used in the present invention is almost neutral, there is no such concern.

[Brief description of drawings]

FIG. 1 is a perspective view showing an example of a non-combustible building material panel of the present invention.

[Explanation of symbols]

 1 Stone 2 Honeycomb core 3 Adhesive layer 4 Backskin layer

Claims (3)

[Claims] 1. A stone material and a core supporting the stone material are adhered to each other by impregnating inorganic fibers with an adhesive, and the adhesive is a polymer of a) resorcinol resin, resorcinol copolymer resin, or resorcinol resin. A non-combustible building material panel comprising a resorcinol resin selected from alloyed resins and b) a curing agent for the resorcinol resin as main components. 2. A stone material and a core supporting the stone material are adhered to each other by impregnating inorganic fibers with an adhesive, and the adhesive comprises a) a polymer of resorcinol resin, resorcinol copolymer resin, or resorcinol resin. A main component is a resorcinol resin selected from alloyed resins, and b) a curing agent for resorcinol resin, and c) a component selected from silicone oil, phosphate ester or alkyl biphenyl. Non-combustible building material panel. 3. A stone material and a core supporting the stone material are adhered by impregnating an inorganic fiber with an adhesive, and the adhesive is a polymer of a) resorcinol resin, resorcinol copolymer resin or resorcinol resin. Mainly composed of resorcinol resin selected from alloyed resins, and b) curing agent of resorcinol resin, and c) component selected from epoxy resin or thermoplastic resin having compatibility with resorcinol resin. A non-combustible building material panel characterized by being a component.