JP2020078944A - Moisture-proof film applicable to building material - Google Patents

Abstract

To provide a moisture-proof film excellent in adhesion to adherends, capable of preventing delamination even when applied to doors, sliding doors, partitions, floor materials, etc., of which both sides have large differences in temperature and humidity environment.SOLUTION: According to the present invention, a moisture-proof film applicable to building materials comprising a second primer layer, a resin substrate, an inorganic layer, and a first primer layer directly formed on the inorganic layer disposed in this order is provided. The first primer layer is made of cured material comprising a polyol as main agent and a curing agent. The second primer layer is made of two-component curable urethane resin.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a moisture-proof film for building materials, and more particularly to a moisture-proof film for building materials having adhesive primer layers on both sides, a building material including the moisture-proof film for building materials, and a decorative board provided with the building material.

  Conventionally, a decorative board in which a decorative sheet is laminated on the surface of a wood-based base material such as wood plywood, medium density fiberboard (MDF), hardboard, and particle board is used as a surface material for doors, sliding doors, partitions, flooring, etc. It is used. When the water content of the wooden base material is smaller than the equilibrium water content of the wooden base material under the outside air condition, the surface of the decorative board on which the decorative sheet is not laminated absorbs moisture or absorbs water to expand this surface. . On the other hand, when the water content of the wood-based material is higher than the equilibrium water content of the wood-based material under the outside air condition, the wood-based material is allowed to shrink by releasing moisture or water, while the surface laminated with the decorative sheet absorbs and absorbs water. Since there is almost no moisture or water absorption and release, the expansion rate or contraction rate of the surface of the decorative sheet on which the decorative sheet is laminated and the surface of the wooden base material exposed are different, causing warpage of the decorative sheet and increasing the commercial value. The result will be dropped.

  As a method of preventing the warp of such a wood-based base material, for example, a method of sufficiently reinforcing the decorative plate so as not to warp with a metal or the like, or a method of applying a decorative sheet on the back side of the decorative plate In order to prevent the permeation of water vapor, which causes a change in the water content of the wood-based substrate due to moisture absorption and release from the back side of the decorative board, a method of applying paint or a decorative board with a decorative sheet laminated on the surface There is known a method of laminating a synthetic resin film of vinyl chloride, polyethylene, polypropylene or the like on the back side of the, or a method of laminating a moisture-proof film.

  The above-mentioned method of reinforcing the decorative plate can prevent the warp by reinforcing it, but cannot prevent the warp in the case of a structure such as a flush door which cannot sufficiently perform the reinforcement. In addition, the method of applying paint has a problem that it is difficult to form a uniform moisture-proof and waterproof layer because the paint on the surface of the wood-based substrate is strongly absorbed and the surface smoothness is poor. there were. Therefore, since it is possible to prevent warpage to some extent, a method of laminating a synthetic resin film or a moisture-proof film is adopted and widely used.

  However, even if it is a decorative board that adopts a method of attaching a moisture-proof sheet, if it is used for a long time on doors, sliding doors, partitions, flooring, etc. where the temperature and humidity environments on both sides differ greatly, There was a difference in the water distribution of the base material between the one surface side and the other surface side, and as a result, the degree of expansion or contraction was different on both surfaces, and warping might occur. In order to solve such a technical problem, an inorganic oxide vapor deposition layer is provided on a PET film, and in a moisture-proof sheet provided with a resin layer containing polyvinyl alcohol thereon, an adhesion primer is provided on the exposed surface of the resin layer. There is proposed a moisture-proof sheet in which a layer is provided and a surface of the PET film opposite to the surface on which the inorganic oxide vapor deposition layer is provided is subjected to reactive etching treatment using plasma (see Patent Document 1). Since there is a resin layer containing polyvinyl alcohol, depending on the environment, hydrolysis of polyvinyl alcohol occurs and adhesion deterioration occurs, it is not possible to sufficiently prevent permeation of water vapor, and warping occurs due to insufficient moisture resistance. Was thought. Further, when used for a long period of time, the adhesiveness was not sufficient by the reactive etching treatment, and there was a risk of peeling at the interface between the PET film and the adhesive layer and warping of the decorative plate. .

Furthermore, a moisture-proof sheet has been proposed in which a polyethylene resin layer is provided on a vapor deposition surface of a PET film provided with a silica vapor deposition layer via a two-component curing type urethane adhesive layer, and further an adhesion primer layer is further provided. (See Patent Document 2). However, reduction of the manufacturing process is being considered.
Further, a vapor deposition layer is laminated on one surface side of the synthetic resin base material layer, and a coupling agent is added to at least one of the other surface of the synthetic resin base material layer and the vapor deposition layer surface. Providing a primer layer has been proposed (see Patent Document 3). However, further improvement in performance is still desired.

JP, 2015-77710, A JP, 2008-105381, A JP, 2009-255499, A

  The present invention has been made in view of the above background art, and its object is to prevent delamination even when used for doors, sliding doors, partitions, flooring, etc., which have large differences in temperature and humidity environments on both sides, and It is intended to provide a moisture-proof film having excellent adhesion to an adherend such as a wood-based substrate or concrete.

  In order to solve the above-mentioned problems, the inventors of the present invention have conducted diligent studies, and as a result, formed a second primer layer on the surface of the resin substrate opposite to the inorganic layer, and specified the second primer layer on the inorganic layer without interposing other layers. It was found that the above problem can be solved by directly forming the first primer layer having the composition of, and the present invention has been completed.

That is, according to one aspect of the present invention,
A moisture-proof building material film comprising a second primer layer, a resin substrate, an inorganic layer, and a first primer layer directly formed on the inorganic layer in this order,
The first primer layer is a cured product of a polyester polyol as a main agent and a urethane prepolymer (excluding an acrylic-polyester urethane copolymer) as a curing agent, and the polyester polyol: the urethane prepolymer. The compounding ratio of 100:10 to 20,
There is provided a moisture-proof film for building materials, wherein the second primer layer is a two-component curing type urethane resin layer.
In the aspect of the present invention, the inorganic layer is preferably a vapor deposition film of an inorganic material or an inorganic oxide.
According to another aspect of the present invention,
A wood-based substrate,
A building material is provided, which is provided with the above moistureproof film for building material on one surface or both surfaces of the wooden base material.
According to another aspect of the present invention,
With the above building materials,
There is provided a decorative plate including a decorative sheet on one side or both sides of the building material.

  In the present invention, doors, sliding doors, partitions, which have a large difference in temperature and humidity environments on both sides, prevent delamination even when used for flooring, etc., and have good adhesion to adherends such as wood-based concrete. An excellent moisture-proof film can be provided. The moisture-proof film according to the present invention has high interlayer adhesion between the inorganic layer side surface (first primer layer) and the adherend, and the surface opposite to the inorganic layer side (second primer layer) and the adherend. Since the interlayer adhesion is high, environmental durability performance and the like can be improved.

It is a schematic cross section which shows one Embodiment of the moisture-proof film for building materials by this invention. It is a schematic cross section which shows one Embodiment of the building material by this invention. It is a schematic cross section which shows one Embodiment of the decorative board by this invention. It is a schematic cross section which shows one Embodiment of the decorative board by this invention.

<Moisture-proof film for building materials>
The moisture-proof film for building materials according to the present invention includes a second primer layer, a resin base material, an inorganic layer, and a first primer layer directly formed on the inorganic layer in this order. Since such a moisture-proof film for building materials has high moisture-proof property and high adhesion to the adherend due to the first and second primer layers, doors, sliding doors, partitions having a large difference in temperature and humidity environment on both sides, It can be suitably used for flooring materials and the like.

The moisture-proof film for building materials preferably has a moisture permeability of 1.5 g/m ² or less measured according to JIS K 7126-2. When the water vapor permeability is 1.5 g/m ² or less, sufficient moisture resistance can be exhibited. The moisture permeability is measured by using a water vapor permeability measuring device (a measuring device manufactured by MOCON [model name: Permatran 3/33]) so that the humidity control side is the barrier coat layer side. A moisture-proof film can be set and measured.

  A schematic cross-sectional view of the moisture-proof film for building materials according to the present invention is shown in FIG. The moisture-proof film for building materials 10 shown in FIG. 1 includes a second primer layer 1 on one surface of a resin substrate 2, an inorganic layer 3 on the other surface, and a first primer layer on the inorganic layer 3. Directly equipped with 4. Hereinafter, each layer which comprises the moisture-proof film for building materials is demonstrated.

(Resin base material)
The resin base material of the moisture-proof film is not particularly limited, and a conventionally known resin film or resin sheet can be used. Examples of the resin film or resin sheet include polyester resins such as polyethylene terephthalate (PET) and polyethylene naphthalate (PEN), polyamide resin 6, polyamide resin 66, polyamide resin 610, polyamide resin 612, polyamide resin 11, and polyamide. Examples thereof include polyamide-based resins such as resin 12 and polyolefin-based resins such as polymers of α-olefins such as polyethylene and polypropylene.

  The resin film or resin sheet used for the resin substrate is, for example, one or more of the above-mentioned resins, and is formed into a film by an extrusion method, a cast molding method, a T-die method, a cutting method, an inflation method, or the like. Method to form a film by coextruding the above resins alone or using two or more kinds of various resins, and further using two or more kinds of resins and mixing them before forming a film. Then, it can be produced by a method of forming a film. Further, for example, a material stretched in the uniaxial or biaxial direction using a tenter method, a tubular method, or the like can be used.

  When one or more of the above resins are used, the processability of the film, heat resistance, weather resistance, mechanical properties, dimensional stability, oxidation resistance, slipperiness, releasability, etc. Various plastic compounding agents and additives can be added for the purpose of improving and modifying flame retardancy, mold resistance, electrical characteristics, strength, etc. It can be added arbitrarily depending on the purpose.

  As a general additive, for example, a lubricant, a cross-linking agent, an antioxidant, an ultraviolet absorber, a light stabilizer, a filler, a reinforcing agent, an antistatic agent, a pigment, etc. can be used. A modifying resin or the like can also be used.

  The thickness of the resin film or resin sheet used for the resin substrate is not particularly limited as long as it can be subjected to pretreatment or film formation treatment when forming a vapor deposition film, and is flexible. From the viewpoint of properties, shape retention, transportability, etc., the range of 6 to 400 μm, preferably 12 to 200 μm is desirable.

(Inorganic layer)
The inorganic layer of the moisture-proof film is preferably a vapor deposited film of an inorganic material or an inorganic oxide. The vapor deposition film can be formed by a conventionally known method using a conventionally known inorganic substance or inorganic oxide, and its composition and forming method are not particularly limited. Since the moisture-proof film has the inorganic layer, it is possible to improve gas barrier properties that prevent permeation of oxygen gas, water vapor and the like.

  Examples of the vapor deposition film include silicon (Si), aluminum (Al), magnesium (Mg), calcium (Ca), potassium (K), tin (Sn), sodium (Na), boron (B), titanium (Ti). ), lead (Pb), zirconium (Zr), yttrium (Y), and other inorganic substances or inorganic oxide vapor deposition films can be used. In particular, as a material suitable for a building material, it is preferable to use a vapor deposition film of aluminum metal, or a vapor deposition film of silicon oxide or aluminum metal or aluminum oxide. A transparent inorganic oxide vapor deposition layer is more preferable, for example, when a high frequency is used to bond a moisture-proof film and wood during flash door processing.

Representation of the inorganic oxide, for _example, SiO X, as such AlO _X MO _X (In the formula, M represents an inorganic element, the value of X, varies each of an inorganic element range.) In expressed. As the range of the value of X, silicon (Si) is 0 to 2, aluminum (Al) is 0 to 1.5, magnesium (Mg) is 0 to 1, calcium (Ca) is 0 to 1, Potassium (K) is 0 to 0.5, tin (Sn) is 0 to 2, sodium (Na) is 0 to 0.5, boron (B) is 0 to 1 and 5, titanium (Ti). Is 0 to 2, lead (Pb) is 0 to 1, zirconium (Zr) is 0 to 2, and yttrium (Y) is 0 to 1.5. In the above, when X=0, the substance is a complete inorganic substance (pure substance) and is not transparent, and the upper limit of the range of X is a completely oxidized value. Silicon (Si) and aluminum (Al) are preferably used for the building material, and silicon (Si) has a value in the range of 1.0 to 2.0 and aluminum (Al) has a value in the range of 0.5 to 1.5. Can be used.

In the present invention, the thickness of the vapor deposition film of the inorganic material or the inorganic oxide as described above varies depending on the type of the inorganic material or the inorganic oxide to be used, but is, for example, 50 to 2000 Å, preferably 100 to 1000 Å. It is desirable to form it by arbitrarily selecting within the range.
More specifically, in the case of a vapor deposited film of aluminum, a film thickness of 50 to 600 Å, more preferably 100 to 450 Å is desirable, and in the case of a vapor deposited film of aluminum oxide or silicon oxide, The film thickness is preferably 50 to 500Å, more preferably 100 to 300Å.

  As a method for forming a vapor deposition film, for example, a physical vapor deposition method (Physical Vapor Deposition method, PVD method) such as a vacuum vapor deposition method, a sputtering method, and an ion plating method, or a plasma chemical vapor deposition method, a thermochemical method The chemical vapor deposition method (Chemical Vapor Deposition method, CVD method) etc., such as a vapor phase epitaxy method and a photochemical vapor phase epitaxy method, can be mentioned.

(First primer layer)
The first primer layer of the moisture-proof film is directly formed on the inorganic layer, and is provided to obtain sufficient adhesive strength when the inorganic layer and the adherend are attached via the adhesive layer. Since the first primer layer is directly formed on the inorganic layer without interposing another layer such as the barrier coat layer, the water resistance of the inorganic layer side can be improved. Further, since no other layers are used, further reduction leads to cost reduction.

  The first primer layer is a cured product of a polyol as a main component and a curing agent, and examples of the polyol include polyester polyol, acrylic polyol, polyether polyol, and polycarbonate polyol. In particular, a cured product of a polyester polyol as a main agent and a urethane prepolymer as a curing agent (compounding ratio polyester polyol: urethane prepolymer = 100:10 to 20), a mixed resin of an acrylic polyol and a urethane resin as a main agent, Examples thereof include a cured product of an epoxy compound as a curing agent, a cured product of a polyether polyol or polycarbonate polyol as a main agent, and a urethane prepolymer as a curing agent. By forming the first primer layer with such a cured product, it is possible to improve the adhesiveness between the inorganic layer and the adhesive and to impart water resistance and solvent resistance. By using a urethane prepolymer or an epoxy compound as the curing agent, the generation of by-products is suppressed and the mixing property is good.

  The thickness of the first primer layer is preferably 0.1 μm to 3 μm, more preferably 0.2 μm to 1 μm, and further preferably 0.3 μm to 0.9 μm. As a method for providing the primer layer, a coating method such as roll coating or gravure printing can be used.

(Second primer layer)
The second primer layer of the moisture-proof film is formed on the opposite side of the resin base material from the inorganic layer, and has a sufficient adhesive strength when the resin base material and the adherend are adhered via the adhesive layer. It is provided in. The second primer layer is a two-component curable urethane resin layer, and among them, a two-component curable urethane resin layer composed of a mixed resin of a urethane resin and a nitrocellulose resin as a main component and an isocyanate compound as a curing agent. Formation is particularly preferred.

  The thickness of the second primer layer is preferably 0.1 μm to 3 μm, more preferably 0.2 μm to 1 μm, and further preferably 0.3 μm to 0.9 μm. As a method for providing the primer layer, a coating method such as roll coating or gravure printing can be used.

<Building materials>
The building material according to the present invention is provided with the moisture-proof film for building material on one or both sides of a wood-based material, and an adhesive layer may be provided between the moisture-proof film for building material and the wood-based material. Such building materials are highly moisture-proof and have high adhesion between the primer layer of the moisture-proof film and the adherend such as a wood-based substrate or concrete, so doors and sliding doors with large differences in temperature and humidity environments on both sides. It can be suitably used as a partition, floor material, and the like.

  A schematic sectional view of the building material according to the present invention is shown in FIG. The building material 20 shown in FIG. 2 is one in which the building moisture-proof film 10 and the wooden base material 11 are laminated via the adhesive layer 12. The layers constituting the building material will be described below. The moisture-proof film for building materials is as described above.

(Wood base material)
The wood-based base material for building materials is not particularly limited, and conventionally known materials can be used. Examples of the wood-based substrate include plywood, particle board (PB), medium density fiberboard (MDF), high density fiberboard (HDF), and the like.

(Adhesive layer)
The adhesive layer of the building material is not particularly limited, and a conventionally known adhesive for building materials can be used. As the adhesive, for example, one-component or two-component type cured or non-cured vinyl type, (meth)acrylic type, polyamide type, polyester type, polyether type, polyurethane type, epoxy type, rubber type, etc. Examples include solvent-based adhesives, water-based adhesives, emulsion adhesives, and the like. As a method for coating the above-mentioned adhesive, for example, a direct gravure roll coating method, a gravure roll coating method, a kiss coating method, a reverse roll coating method, a Fonten method, a transfer roll coating method, or another method can be applied. As the coating ^{amount, 0.1g / m 2 ~10g / m} 2 ( dry state) position are ^{preferred, 1g / m 2 ~5g / m} 2 ( dry state) position is more preferred.

<Veneer>
The decorative board according to the present invention comprises a decorative sheet on one side or both sides of the building material, and an adhesive layer may be provided between the building material and the decorative sheet. Such a decorative board has high moisture resistance and high adhesion between the primer layer of the moisture-proof film and the wood-based base material, so it can be used for doors, sliding doors, partitions, flooring, etc. where there is a large difference in temperature and humidity environment on both sides. It can be used preferably.

  A schematic cross-sectional view of the decorative board according to the present invention is shown in FIGS. 3 and 4. In the decorative plate 30 shown in FIG. 3, the moisture-proof film 10 for building materials is laminated on one surface of the wooden base material 11 via the adhesive layer 12, and the decorative sheet 13 is laminated on the other surface of the wooden base material 11. It was done. Further, the decorative board 30 shown in FIG. 4 has the building material moisture-proof film 10 laminated on both surfaces of the wood-based substrate 11 with the adhesive layer 12 interposed therebetween, and further, one building material moisture-proof film 10 has a decorative sheet. It is laminated. Hereinafter, each layer constituting the decorative board will be described. The building material and the adhesive layer are as described above.

(Decorative sheet)
The decorative sheet of the decorative plate is not particularly limited, and any conventionally known decorative sheet can be used. As the decorative sheet, for example, a decorative sheet made of a paper base material or a synthetic resin base material on which at least a pattern print having a wood grain pattern is applied.

(Other aspects)
Another object of the present invention is to prevent delamination even when used for doors, sliding doors, partitions, flooring, etc., where there is a large difference in temperature and humidity environments on both sides, and for adherends such as wood-based substrates and concrete. It is to provide a moisture-proof film having excellent adhesion.
In order to solve the above-mentioned problems, the inventors of the present invention have conducted diligent studies, and as a result, formed a second primer layer on the surface of the resin substrate opposite to the inorganic layer, and specified the second primer layer on the inorganic layer without interposing other layers. It has been found that the above problem can be solved by directly forming the first primer layer having the composition described above, and has completed one embodiment of the present invention.
That is, according to one aspect of the present invention,
A moisture-proof building material film, comprising a second primer layer, a resin substrate, an inorganic layer, and a first primer layer directly formed on the inorganic layer in this order,
The first primer layer is a cured product of a polyol as a main agent and a curing agent,
Provided is a moisture-proof building material film, wherein the second primer layer is a two-component curable urethane resin layer.
In the aspect of the invention, it is preferable that the first primer layer is a cured product of a polyester polyol as a main component and a urethane prepolymer as a curing agent.
In the aspect of the present invention, it is preferable that the first primer layer is a cured product of a mixed resin of an acrylic polyol and a urethane resin as a main component and an epoxy compound as a curing agent.
In the aspect of the present invention, it is preferable that the first primer layer is a cured product of a polyester polyol or a polycarbonate polyol as a main agent and a urethane prepolymer as a curing agent.
In the aspect of the present invention, the inorganic layer is preferably a vapor deposition film of an inorganic material or an inorganic oxide.
According to another aspect of the present invention,
A wood-based substrate,
A building material is provided, which is provided with the moisture-proof film for building material on one side or both sides of the wood-based substrate.
According to another aspect of the present invention,
With the above building materials,
There is provided a decorative plate including a decorative sheet on one side or both sides of the building material.
In one aspect of the present invention, doors having a large difference in temperature and humidity environments on both sides, sliding doors, partitions, even when used for flooring and the like, prevent delamination, and with an adherend such as wood-based concrete A moisture-proof film having excellent adhesiveness can be provided. The moisture-proof film according to one embodiment of the present invention has high interlayer adhesion between the surface on the inorganic layer side (first primer layer) and the adherend, and the surface on the side opposite to the inorganic layer (second primer layer). Since the interlayer adhesion of the body is high, the environmental durability performance and the like can be improved.

  Hereinafter, the present invention will be described more specifically with reference to Examples and Comparative Examples, but the present invention is not limited to the following Examples.

[Example 1]
An aluminum oxide (alumina) film having a thickness of 10 nm was formed on one surface of a PET film (PET-F manufactured by Unitika) having a thickness of 12 μm, which is a resin substrate.

Then, on the inorganic layer (alumina film) of the PET film, a polyester polyol (manufactured by Dainichiseika Kogyo Co., Ltd., trade name: Primer for vapor deposition PD-4 PET-2) as a main component, and urethane pre as a curing agent. The first resin composition for a primer layer, to which a polymer (trade name: VM-D curing agent manufactured by Dainichiseika Kogyo Co., Ltd.) was added, was applied by a gravure printing method to form a first resin layer having a thickness of 0.3 μm. A primer layer was formed. Also, after the corona treatment discharge (discharge amount 20 W·min/m ² ) was applied to the surface of the PET film opposite to the inorganic layer, an isocyanate compound as a curing agent was added to a urethane resin/nitrocellulose resin as a main component. The two-component curable urethane resin composition described above is applied to form a second primer layer having a thickness of 0.3 μm, and a moisture-proof film (layer structure: second primer layer/resin base material/inorganic layer/first Was obtained.

[Example 2]
Aliphatic epoxy compound (manufactured by Dainichiseika Kogyo Co., Ltd.) as a curing agent on a mixed resin of acrylic polyol and urethane resin (manufactured by Dainichiseika Kogyo KK, trade name: Seikadyne TS241 primer) as a main agent A moisture-proof film was produced in the same manner as in Example 1 except that the first primer layer resin composition containing Seikadine TS241 curing agent) was used.

[Example 3]
Urethane prepolymer (manufactured by Dainichiseika Kogyo Co., Ltd., trade name: VM-D curing agent) as a curing agent is added to polycarbonate polyol (produced by Kuraray Co., Ltd., trade name: Kuraray Polyol C-2090) as a main agent. A moisture-proof film was produced in the same manner as in Example 1 except that the above-described first primer layer resin composition was used.

[Comparative Example 1]
A moisture-proof film (layer structure: resin base material/inorganic layer) was carried out in the same manner as in Example 1 except that the corona treatment discharge was not performed on the surface of the PET film opposite to the inorganic layer and the second primer layer was not formed. /First primer layer) was prepared.

[Comparative example 2]
An aluminum oxide (alumina) film having a thickness of 10 nm was formed on one surface of a PET film (PET-F manufactured by Unitika) having a thickness of 12 μm, which is a resin substrate. Subsequently, a polyvinyl alcohol solution was applied onto the inorganic layer (alumina film) of the PET film by a gravure printing method so as to be 0.2 g/m ² after drying, and dried to obtain a resin layer (barrier containing polyvinyl alcohol). Coat layer) was formed. Then, on the barrier coat layer, a polyester resin (manufactured by Dainichiseika Kogyo Co., Ltd., trade name: evaporation primer PD-4 PET-2) as a main agent, and an isocyanate compound as a curing agent (Dainichiseika Kogyo ( Co., Ltd., trade name: VM-D curing agent) was added to the resin composition for a first primer layer by a gravure printing method to form a first primer layer having a thickness of 0.3 μm, A moisture-proof film (layer structure: resin substrate/inorganic layer/barrier coat layer/first primer layer) was obtained.

[Comparative Example 3]
Moisture proof in the same manner as in Example 1 except that the second primer layer was not formed after corona treatment discharge (discharge amount 20 W·min/m ² ) was applied to the surface of the PET film opposite to the inorganic layer. A film (layer structure: resin substrate (with corona treatment)/inorganic layer/first primer layer) was prepared.

[Comparative Example 4]
Same as Example 1 except that the second primer layer was not formed after plasma treatment discharge (frequency 13.56 MHz, 200 W·m ² ·sec) was applied to the surface of the PET film opposite to the inorganic layer. A moisture-proof film (layer structure: (with plasma treatment) resin substrate/inorganic layer/first primer layer) was produced.

<Evaluation of moisture-proof sheet>
The following measurements and evaluations were performed using the moisture-proof sheet produced in each of the above Examples and Comparative Examples.

<Measurement of moisture permeability>
Set the moisture-proof film before treatment so that the humidity control side will be the inorganic layer side using a water vapor transmission rate measurement device (measuring machine [model name, Permatran 3/33] manufactured by MOCON) Then, the moisture permeability was measured in accordance with JIS K 7126-2 under the condition of a temperature of 40° C. and a humidity of 90%.

<Adhesion evaluation of inorganic layer side>
A vinyl acetate adhesive (manufactured by Chuo Science Co., Ltd., BA-10/BA-11B) is coated on the inorganic layer side of the moisture-proof film, laminated with water-resistant PB (particle board), and cured for 1 week at 60°C. The peeled state after one month in a humidity 90% RH environment was evaluated. As an evaluation of adhesion, a 180° peel test with a peeling speed of 50 mm/min was carried out using a tensile tester (Tensilon manufactured by A&D Co., Ltd.), resulting in PB material failure or cohesive failure of the adhesive. The case of passing (○) is regarded as acceptable, and the case of peeling at the interface of the inorganic layer/first primer layer, the interface of the second primer layer/adhesive, and the barrier coat/first primer interface is rejected ( X).

<PET surface (second primer layer surface) side adhesion evaluation>
A floor construction adhesive (KU-928R-W made by Konishi) is applied to the surface opposite to the moisture-proof film inorganic layer (first primer surface or PET surface), laminated with particle board (PB), and then cured for 1 week. Then, the normal state of peeling after 1 month under the environment of 60°C and 90% RH was evaluated. As an adhesion evaluation, a 180-degree peel test was carried out using a tensile tester (Tensilon manufactured by A&D Co., Ltd.), and a case where cohesive failure of the adhesive required for construction occurred was judged as pass (○), The case where peeling occurred at the PET/adhesive interface was regarded as a failure (x).

<Evaluation of warm water resistance>
A vinyl acetate adhesive (BA-10/BA-11B manufactured by Chuo Science Co., Ltd.) is applied to the inorganic layer side of the moisture-proof film, laminated with water resistant PB (particle board), and then an adhesive for floor construction (Konishi Co., Ltd., KU-928R-W) is applied to the PET surface side of the moisture-proof film, laminated with PB, then cured for 1 week, immersed in hot water at 70°C for 2 hours, and then dried at 60°C for 3 hours. The peeling state of the film interface sandwiched between the two PBs after the evaluation was evaluated. The case where the peeling of the bonding side was one-third or less was judged as pass (◯), and the case where the peeling of the bonding side exceeded one-third was judged as fail (x).

Table 1 shows the above measurement results and evaluation results.

1 2nd primer layer 2 Resin base material 3 Inorganic layer 4 1st primer layer 10 Moisture-proof film 11 Wood-based base material 12 Adhesive layer 13 Decorative sheet 20 Building material 30 Decorative plate

Claims (4)

A moisture-proof building material film, comprising a second primer layer, a resin substrate, an inorganic layer, and a first primer layer directly formed on the inorganic layer in this order,
The first primer layer is a cured product of a polyester polyol as a main agent and a urethane prepolymer (excluding an acrylic-polyester urethane copolymer) as a curing agent, and the polyester polyol: the urethane prepolymer. The compounding ratio of 100:10 to 20,
The moisture-proof film for building materials, wherein the second primer layer is a two-component curable urethane resin layer.   The moisture-proof film for building materials according to claim 1, wherein the inorganic layer is a vapor deposition film of an inorganic material or an inorganic oxide. A wood-based substrate,
A building material, comprising the moisture resistant film for building material according to claim 1 or 2 on one surface or both surfaces of the wood-based substrate. The building material according to claim 3,
A decorative board comprising a decorative sheet on one side or both sides of the building material.

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