JP3965635B1 - Makeup incombustible material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a decorative non-combustible material, wherein a decorative veneer is coated on a base material having a total calorific value of 40 MJ / m ² or less in a heat generation test according to ISO 5660-1 for 20 minutes. Makeup material,
Between the base material and the decorative veneer, an incombustible sheet made of a laminate of an aluminum foil and a fibrous sheet is inserted and laminated and integrated. At this time, the decorative veneer and the incombustible sheet are Adhered with latex thermosetting adhesive or vinyl acetate adhesive, the base material and the non-combustible sheet are urethane adhesive, vinyl acetate adhesive, vinyl acetate-acrylic copolymer adhesive, latex heat A cosmetic incombustible material, which is bonded with a curable adhesive or a water-based vinyl urethane adhesive, and has a total calorific value of 8 MJ / m ² or less in a test time of 20 minutes in the exothermic test.
[Selection] Figure 1

Description

In the present invention, when a base material having a total calorific value of 40 MJ / m ² or less for a test time of 20 minutes in a heat generation test according to ISO 5660-1, a flammable decorative veneer is pasted on the base material. even when, to maintain and improve the fire performance of the substrate had originally resulting stable non-flammable (gross calorific value of the heating test time in the test 20 minutes 8 MJ / m ² or less) may exhibit It relates to cosmetic incombustible materials.
Specifically, a laminate of an aluminum foil and a fibrous sheet between a base material having a total calorific value of 40 MJ / m ² or less and a decorative veneer in a heat generation test according to ISO 5660-1 for 20 minutes. The present invention relates to a decorative incombustible material obtained by inserting a noncombustible sheet made of

  Architectural interior materials such as wall materials, ceiling surface materials, column covering materials and movable partitioning surface materials: automotive and marine interior product surface materials: exterior cosmetic materials such as furniture such as furniture: exterior cosmetic materials for general wood products such as furniture : In addition, many flame retardant and non-flammable cosmetic materials have been developed so far for the purpose of using them as exterior cosmetic materials for electronic devices and musical instruments.

In addition, some fireproof decorative materials have been reported by inserting a metal foil such as an aluminum foil between a base material and a decorative veneer.
For example, non-combustible new building materials (see Patent Document 1) for the purpose of fire resistance composed of printed paper / wood veneer / paper / aluminum foil / plywood / base material, decorative thin veneer / paper / aluminum foil / Flame-resistant decorative plywood composed of fire-resistant chemical impregnated plywood (see Patent Document 2), UV coating layer / decorative sheet / veneer / aluminum foil / substrate Decorative plate for effect (see Patent Document 3), wood veneer / powdered inorganic 3-10% water-based adhesive / chemical fiber paper / aluminum foil (thickness 30-50 μm) / chemical fiber paper / woody system Heat-resistant decorative board composed of a base material for heat diffusion effect (see Patent Document 4), improved surface smoothness made up of a veneer / inter-paper reinforced paper / polyethylene resin / aluminum foil / wood base material Veneer veneer for preventing cracks (patented) Ref. 5)), heat resistance for the purpose of improving heat resistance, flame resistance, durability and weather resistance composed of UV coating layer / decorative material / copper foil or metal foil of copper foil and aluminum foil / base plate material Fire-resistant decorative wood (see Patent Document 6) and precious wood veneer / paper / non-woven fabric / aluminum foil or glass fiber sheet / paper / non-woven fabric / base material for high fire resistance (Patent Document) 7, etc.).
JP 61-102943 A JP 50-31012 A Japanese Patent Laid-Open No. 02-175240 Japanese Patent Application Laid-Open No. 08-1865 JP 2003-145503 A JP 09-216308 A Japanese Patent Laid-Open No. 06-115008

However, many of the fire protection performances displayed on the above-mentioned decorative materials were evaluated by surface tests and base material tests, which were Japanese original test methods, and were revised in 2000. It was not confirmed by an ISO-compliant test method according to
And when the cosmetic material currently distribute | circulating was evaluated by the exothermic test based on ISO5660-1, it turned out that the displayed fireproof performance may not necessarily be reflected.
In particular, when an inorganic incombustible material is used as the base material for the decorative material, the total heat generation amount for 20 minutes in the base material exothermic test shows a good value of around ² to 3 MJ / m ^2. However, in many cases, it is confirmed that the base material shows a value of about 5 MJ / m ² or more, and when such a base material is made up with a veneer veneer, a concealing treatment (covering agent application or paper Etc.), organic materials such as adhesive, decorative veneer, surface coating, etc. are arranged on the surface layer, so the total calorific value for 20 minutes in the exothermic test is about 4-6 MJ / m ² due to the heat generated by the organic matter It became high, and it turned out that there exists a problem that the nonflammable specification (the total calorific value for 20 minutes in the exothermic test is 8 MJ / m ² or less) cannot be satisfied.

In addition, in the case of a cosmetic material using a base material such as wood treated with a flame retardant with an organic chemical, it is assumed to be nonflammable (the total calorific value for 20 minutes in the exothermic test is 8 MJ / m ² or less). In order to do so, the content ratio of the inorganic material in the base material may be increased extremely, the decorative veneer used on the base material surface may be made flame retardant, or it may be changed to an inorganic material. There was a problem that the quality of the wood material was extremely lost and the cost was further increased.

Therefore, the present invention maintains and improves the fire-proof performance inherent to the base material in the decorative material in which the combustible decorative veneer is pasted on the base material, and as a result, stable non-flammability (20 in the exothermic test). It is an object to provide a makeup incombustible material capable of exhibiting a total calorific value per minute of 8 MJ / m ² or less.

As a result of intensive studies to solve the above problems, the present inventors have determined that if a total calorific value for 20 minutes in the exothermic test is 40 MJ / m ² or less, a decorative veneer on the substrate. Even when coated, an incombustible sheet made of a laminate of an aluminum foil and a fibrous sheet is inserted between the base material and the decorative veneer, and at this time, the decorative veneer and the incombustible sheet Is bonded with a latex thermosetting adhesive or a vinyl acetate adhesive, and the base material and the non-combustible sheet are urethane adhesive, vinyl acetate adhesive, vinyl acetate-acrylic copolymer adhesive, latex It is found that if it is bonded with a thermosetting adhesive or a water-based vinyl urethane-based adhesive, it stably shows nonflammability (the total calorific value for 20 minutes in the exothermic test is 8 MJ / m ² or less), Completed the present invention .

That is, the present invention
1. A decorative material in which a decorative veneer is coated on a base material having a total calorific value of 40 MJ / m ² or less in a heat generation test according to ISO 5660-1 for 20 minutes, the base material and the base material Between the decorative veneer, an incombustible sheet made of a laminate of an aluminum foil and a fibrous sheet is inserted and laminated and integrated. At this time, the decorative veneer and the incombustible sheet are latex thermosetting. Adhered with an adhesive or a vinyl acetate adhesive, the substrate and the non-combustible sheet are urethane adhesive, vinyl acetate adhesive, vinyl acetate-acrylic copolymer adhesive, latex thermosetting adhesive or A non-combustible cosmetic material characterized by being bonded with a water-based vinyl urethane adhesive and having a total calorific value of 20 MJ / m ² or less in a test time of 20 minutes in the exothermic test,
2. The above-mentioned 1. The substrate is a wood plywood impregnated with a boron-based flame retardant or a boric acid-based flame retardant. The makeup incombustible material,
3. 1. The substrate according to the above 1, wherein the substrate is composed mainly of a volcanic glassy foam and includes rock wool granular cotton, aluminum hydroxide powder and an organic binder. The makeup incombustible material,
4). The above-mentioned 1. The substrate is a substrate containing aluminum hydroxide as a main component and containing fibers and a resin. The makeup incombustible material,
5). 1. The substrate according to the above 1, wherein the substrate is composed mainly of calcium silicate and contains vermiculite and pulp. The makeup incombustible material,
6). 1. The substrate according to the above 1, wherein the substrate is mainly a waste paper and contains rock wool and magnesium silicate. The makeup incombustible material,
7). 1. The substrate according to the above 1, wherein the substrate is mainly composed of waste paper and contains an inorganic substance and a flame retardant. The makeup incombustible material,
8). 1. The substrate according to 1., wherein the substrate is mainly composed of gypsum and contains pulp. The makeup incombustible material,
It is about.

In the present invention, when a base material having a total calorific value of 20 MJ / m ² or less in the exothermic test is 40 MJ / m ² or less, even when a decorative veneer is coated on the base material, the base material and the decorative unit are used. A non-combustible sheet made of a laminate of an aluminum foil and a fibrous sheet is inserted between the plates, and the decorative veneer and the non-combustible sheet are inserted into the latex thermosetting adhesive or vinyl acetate adhesive. The base material and the non-combustible sheet are bonded with a urethane adhesive, a vinyl acetate adhesive, a vinyl acetate-acrylic copolymer adhesive, a latex thermosetting adhesive, or an aqueous vinyl urethane adhesive. It has been found for the first time that it is stable and non-combustible (the total calorific value for 20 minutes in the exothermic test is 8 MJ / m ² or less).

That is, according to the present invention, the total calorific value of 20 minutes in the existing heating resistance test, by a simple operation from 40 MJ / m ² or less of the base material, and a low cost decorative cosmetics are cosmetic noncombustible single plate Can be manufactured.
In addition, the decorative incombustible material of the present invention is excellent in barrier properties from the back surface, which prevents moisture and moisture from the back surface after construction to prevent discoloration of the veneer.
Furthermore, the decorative non-combustible material of the present invention is also excellent in concealability (prevention of copying of the base material).
Therefore, the decorative non-combustible material of the present invention is a building interior material such as a wall surface material, a ceiling surface material, a column covering material, and a movable partition, etc. : External decorative material of general wood products such as furniture: Useful for external decorative material of electronic devices and musical instruments.

The base material used for the decorative incombustible material of the present invention is a base material having a total calorific value of 20 MJ / m ² or less in a heat generation test for 20 minutes.
The exothermic test described in the present invention means a corn calorimeter test method based on ISO5660-1.
As a preferable base material used for the cosmetic incombustible material of the present invention, it is a wood impregnated with a boron-based flame retardant or a boric acid-based flame retardant, or a volcanic glassy foam, aluminum hydroxide, calcium silicate, waste paper or Examples thereof include a base material mainly composed of gypsum.

The wood impregnated with boron-based flame retardant or boric acid-based flame retardant is not particularly limited as long as the wood is impregnated with boron-based flame retardant or boric acid-based flame retardant, but impregnated with a preferable boron-based flame retardant. Examples of the wood made to be quasi-incombustible (the total calorific value for 10 minutes in the exothermic test is 8 MJ / m ² or less) include a base material impregnated with a preferable boric acid flame retardant. Includes a base material that is flame retardant (the total calorific value for 5 minutes in the exothermic test is 8 MJ / m ² or less).

Examples of the base material mainly composed of volcanic glassy foam include those containing rock wool granular cotton, aluminum hydroxide powder and organic binder (starch, phenol resin, etc.), preferably flame retardant ( The total calorific value for 5 minutes in the exothermic test is 8 MJ / m ² or less).

  Examples of the base material mainly composed of aluminum hydroxide include those containing a small amount of fiber and resin.

The base material composed mainly of calcium silicate, include those containing vermiculite and pulp, non-flammable (gross calorific value of 20 minutes in the heat generating resistance test, the 8 MJ / m ² or less.) Substrate is preferable.

Examples of the base material mainly composed of waste paper include those containing rock wool and magnesium silicate, and preferably nonflammable (the total calorific value for 20 minutes in the exothermic test is 8 MJ / m ² or less). A base material is mentioned.
Further, as a substrate mainly containing waste paper, include those containing inorganic and flame燃薬agent, preferably the total calorific value of 5 minutes in the test flame retardancy (exothermic, and 8 MJ / m ² or less. )
The base material of these is mentioned.
Examples of the base material containing gypsum as a main component include those containing pulp.

As a non-combustible sheet comprising a laminate of an aluminum foil and a fibrous sheet used for the decorative incombustible material of the present invention, a fibrous sheet; an aluminum foil; a laminated body and a fibrous sheet formed from a fibrous sheet; an aluminum foil The laminated body etc. which are formed from are mentioned.
Examples of the fibrous sheet include paper or non-woven fabric, and the paper or non-woven fabric includes inter-paper reinforced paper, Japanese paper, western paper (high quality paper, medium quality paper, etc.), kraft paper, thin paper or resin-impregnated paper, and Various nonwoven fabrics such as polyester nonwoven fabric, polyester / pulp nonwoven fabric, and vinylon mixed nonwoven fabric are included.
The fiber sheet is a laminated element that facilitates adhesion of the decorative sheet, cushions the unevenness of the base to prevent the decorative sheet from lifting, and conceals the brightness of the inner aluminum foil. It is.
The basis weight of the fibrous sheet is 15 to 100 g / m ² , preferably 20 to 50 g / m ² .

Aluminum foil is used as a laminated element in order to give the decorative non-combustible material appropriate rigidity to suppress dimensional change, blow-off and warpage of the decorative veneer, and to impart high dimensional stability to the decorative non-combustible material. Is.
The thicker the aluminum foil, the easier it is to improve the flame retardancy, but the thicker the aluminum foil, the worse the workability and the lower the economic efficiency.
Therefore, it is preferable to make the thickness of the aluminum foil as thin as possible within a range where nonflammability is obtained.
In the above viewpoint, the thickness of the aluminum foil is usually 5 to 40 μm, preferably 8 to 30 μm, more preferably 8 to 20 μm, and particularly preferably 8 to 15 μm. Examples of the aluminum foil include 10 μm, 12 μm, 15 μm, 20 μm, and 30 μm, and more preferable examples include 10 μm, 12 μm, and 15 μm.

When the aluminum foil and the fibrous sheet are bonded, the bonding is usually performed by interposing an adhesive resin between the fibrous sheet and the aluminum foil.
When the adhesive resin layer is formed, the fiber sheet and aluminum foil can be bonded and integrated, giving moderate flexibility to absorb the unevenness of the foundation during construction, and when sticking to the substrate It has the effect of giving sufficient flexibility and adaptability to the curved surface and corner base, further suppressing the corrosion prevention of the aluminum foil, and together with the aluminum foil the veneer of the decorative veneer, Has the effect of suppressing warpage.
The thickness of the adhesive resin layer is 1 to 80 μm, preferably 2 to 30 μm.
When the fibrous sheet is bonded to both surfaces of the aluminum foil, the adhesive resin layers formed on the two bonding surfaces may be the same or different, and each resin layer may be a single layer or a plurality of layers. It may be a layer. The thickness is 1 to 80 μm, preferably 2 to 30 μm, respectively.

  Examples of the resin layer include polyolefin copolymers such as polyethylene copolymers, ethylene-acrylic acid acrylic copolymers (EAA), ethylene-acrylic acid copolymers, ionomers, polyamide resins, urethane-based dry laminate adhesives, and the like. Although it can mention, it is not limited to these, It can apply over a wide range.

As the resin layer, an adhesive resin layer containing a flame retardant can be used, but when the fibrous sheet is present on both sides of the aluminum foil, either one of the adhesive resin layers formed on both sides of the aluminum foil. It can be contained in one or both.
Examples of the flame retardant include antimony trioxide, phosphoric acid, and halogen compounds.

  Further, in order to prevent corrosion of the aluminum foil, an anchor coating agent for anticorrosion having a high buyer property may be coated on the aluminum foil in advance before applying the fibrous sheet.

  Fiber sheet formed as described above; Aluminum foil; Laminate or fiber sheet formed from fiber sheet; Laminate formed from aluminum foil shields moisture and moisture from the back side after construction. It works to prevent discoloration of the decorative veneer on the surface, and also serves to conceal (prevent the substrate from being copied).

The decorative veneer used for the decorative incombustible material of the present invention is cut from various kinds of wood to a thickness of, for example, 0.05 to 3.0 mm, preferably 0.10 to 0.4 mm. A sawn or veneer can be applied.
The grain of the decorative veneer is not particularly limited, and may be any one of a square, a memorial, a grain or a knot.
Moreover, the tree species of the decorative veneer is not particularly limited, but examples of preferable tree species are as follows. ： 檜 、 楢 、 欅 、 Sakura 、 楡 、 Black 柿 、 Tochi 、 Katsura 、 楓 、 槐 、 楠木 etc.：Rosewood, teak, mahogany, cocktan (black altar), rosewood, bird's eye maple, American black walnut, Claro Walnut, latin walnut, quinceland walnut, zebra wood, mangashiro, brazilian rose, karin (karin), versimon, silver rose, palma, redwood, purplewood, silky oak, thaiwanks, cherry, magnolia, black leo (dao) White leo, saberi, bubinka, macore, madroner, myrtle, maple, assin, inbuyer, etc.

A decorative veneer is usually bonded onto a fibrous sheet with an adhesive interposed.
As the kind of the adhesive, a latex thermosetting adhesive or a vinyl acetate adhesive is used.
The above-mentioned vinyl acetate adhesives include not only vinyl acetate adhesives but also adhesives based on polyvinyl acetate, for example, aqueous two-component adhesives incorporating a curing mechanism (reactive special vinyl acetate resin emulsion) Etc. are also included.

Aluminum foil, fibrous sheet on substrate; laminated body made of aluminum foil, fibrous sheet; aluminum foil; laminated body made of fibrous sheet or veneer veneer; fibrous sheet; aluminum foil; sheet made of fibrous sheet When sticking, it is usually bonded with an adhesive.
As the kind of the adhesive, urethane adhesive, latex thermosetting adhesive, vinyl acetate adhesive, vinyl acetate-acrylic copolymer adhesive, and aqueous vinyl urethane adhesive are used.
The above-mentioned vinyl acetate adhesives include not only vinyl acetate adhesives but also adhesives based on polyvinyl acetate, for example, aqueous two-component adhesives incorporating a curing mechanism (reactive special vinyl acetate resin emulsion) Etc. are also included.

The decorative incombustible material of the present invention can be produced by the following method.
(a) First, in accordance with an extrusion laminating method, an adhesive resin is interposed as necessary to form a laminate composed of a fibrous sheet; aluminum foil; a fibrous sheet, and then the adhesive is interposed as necessary. A laminated body is stuck on a base material, and a decorative veneer is overlaid and bonded with heat and pressure by interposing an adhesive as necessary.
(B) An aluminum foil is pasted on the base material with an adhesive if necessary, a fibrous sheet is stuck on the base with an adhesive resin if necessary, and a decorative veneer is further formed thereon. If necessary, stick with an adhesive.
(C) A sheet made of a decorative veneer; a fibrous sheet; an aluminum foil; a fibrous sheet is produced in advance with an adhesive resin and / or an adhesive, if necessary, and the sheet is adhered onto a substrate. .

EXAMPLES Next, although an Example demonstrates this invention still in detail, this invention is not limited to an Example.
Example 1 Production of a makeup incombustible material using a base material composed mainly of a volcanic glassy foam Example 1 will be described with reference to FIG.
As shown in FIG. 1, in accordance with the dry lamination method, basis weight 30 g / m between ^two paper reinforced paper 2; urethane adhesive; aluminum foil 3 having a thickness of 15 [mu] m; urethane adhesive; basis weight 30 g / m ^The sheet | seat containing aluminum foil which consists of ² paper reinforcement | strengthening paper 4 was manufactured.
Moreover, the aluminum foil containing sheet | seat was manufactured by the method similar to the above using the 10-micrometer-thick aluminum foil.
Latex-based thermosetting adhesion on base material 1 (6mm thickness) containing volcanic glassy foam as the main component and containing rock wool granular cotton, aluminum hydroxide powder and organic binder (starch, phenol resin, etc.) The agent was applied, and the sheet containing aluminum foil (aluminum foil thickness 10 μm) was attached by hot pressing.
Furthermore, a vinyl acetate adhesive was applied onto a sheet containing aluminum foil (aluminum foil thickness 10 μm), and the veneer 5 (0.2 mm thickness, air dry weight 90 g / m ² ) was stuck by a hot press. After polishing the veneer surface, it was finished with a synthetic resin paint.

A latex thermosetting adhesive is applied on the base material (6 mm thickness) in the same manner as a comparative test, and the above veneer (0.2 mm thickness, air dry weight 90 g / m ² ) is directly heated. A decorative material was manufactured by sticking with a press, polishing the surface of the veneer and painting with a synthetic resin.

実施例１〜８で製造した８種の化粧材、実施例１で使用した基材に突板を接着しただけの化粧材及び実施例１で使用した基材単体（６ｍｍ厚）の計１０種の試験体を準備し、発熱性試験を実施した。
尚、上記１０種の試験体を用いる発熱性試験結果のグラフを図３ないし図１２に示した。 Examples 2-8
Other than changing the thickness of the aluminum foil of the sheet containing aluminum foil, the type of adhesive used for bonding the base material and the sheet containing aluminum foil, and the type of adhesive used for bonding the sheet containing aluminum foil and the veneer Produced the cosmetic materials of Examples 2 to 8 as shown in Table 1 in the same manner as in Example 1.
In the table, “aluminum thickness” indicates the thickness of the aluminum foil of the used aluminum foil-containing sheet, and “adhesive (base material / aluminum sheet)” indicates adhesion between the base material and the aluminum foil-containing sheet. The type of adhesive used is shown, and “adhesive (aluminum sheet / projection plate)” indicates the type of adhesive used for bonding the sheet containing aluminum foil and the projection plate.
Table 1

8 types of cosmetic materials manufactured in Examples 1 to 8, 10 types of cosmetic materials in which a veneer was simply bonded to the base material used in Example 1, and a base material alone (6 mm thickness) used in Example 1 A test body was prepared and a heat generation test was performed.
In addition, the graph of the exothermic test result using said 10 types of test body was shown in FIG. 3 thru | or FIG.

Example 9 Production of decorative noncombustible material using base material mainly composed of calcium silicate According to dry laminating method, paper reinforced paper with basis weight of 30 g / m ² ; urethane adhesive; aluminum foil with thickness of 15 μm; Urethane adhesive: A sheet containing aluminum foil made of inter-paper reinforced paper having a basis weight of 30 g / m ² was produced.
Moreover, the aluminum foil containing sheet | seat was manufactured by the method similar to the above using the 10-micrometer-thick aluminum foil.
A urethane-based adhesive was applied on a base material (6 mm thickness) containing calcium silicate as a main component and containing vermiculite and pulp, and the above-mentioned sheet containing aluminum foil (aluminum foil thickness 10 μm) was adhered by hot pressing. .
Further, a vinyl acetate adhesive was applied onto a sheet containing aluminum foil (aluminum foil thickness 10 μm), and a veneer (0.2 mm thickness, air dry weight 90 g / m ² ) was stuck by a hot press. After polishing the veneer surface, it was finished with a synthetic resin paint.

A latex thermosetting adhesive is applied on the base material (6 mm thickness) in the same manner as a comparative test, and the above veneer (0.2 mm thickness, air dry weight 90 g / m ² ) is directly heated. A decorative material was manufactured by sticking with a press, polishing the surface of the veneer and painting with a synthetic resin.

実施例９〜１７で製造した９種の化粧材、実施例９で使用した基材に突板を接着しただけの化粧材及び実施例９で使用した基材単体（６ｍｍ厚）の計１１種の試験体を準備し、発熱性試験を実施した。
尚、上記１１種の試験体を用いる発熱性試験結果のグラフを図１３ないし図２３に示した。 Examples 10-17
Other than changing the thickness of the aluminum foil of the sheet containing aluminum foil, the type of adhesive used for bonding the base material and the sheet containing aluminum foil, and the type of adhesive used for bonding the sheet containing aluminum foil and the veneer Produced the cosmetic materials of Examples 10 to 17 as shown in Table 2 in the same manner as in Example 9.
In the table, “aluminum thickness” indicates the thickness of the aluminum foil of the used aluminum foil-containing sheet, and “adhesive (base material / aluminum sheet)” indicates adhesion between the base material and the aluminum foil-containing sheet. The type of adhesive used is shown, and “adhesive (aluminum sheet / projection plate)” indicates the type of adhesive used for bonding the sheet containing aluminum foil and the projection plate.
Table 2

Nine types of cosmetic materials manufactured in Examples 9 to 17, a cosmetic material in which a veneer was simply bonded to the base material used in Example 9, and a base material alone (6 mm thickness) used in Example 9 totaled 11 types. A test body was prepared and a heat generation test was performed.
In addition, the graph of the exothermic test result using said 11 types of test body was shown in FIG. 13 thru | or FIG.

Example 18 Production of a cosmetic incombustible material using wood impregnated with a boric acid flame retardant as a base material According to the dry laminating method, paper-reinforced paper having a basis weight of 30 g / m ² ; urethane adhesive; thickness 15 μm An aluminum foil-containing sheet made of paper-reinforced paper having a basis weight of 30 g / m ² was produced.
After impregnating the thick veneer with a boric acid flame retardant and drying, the thick veneer was laminated to form a 10 mm thick flame retardant plywood.
On the flame-retardant plywood, a latex thermosetting adhesive was applied, and the above-mentioned aluminum foil-containing sheet (aluminum foil thickness 15 μm) was adhered by hot pressing.
Further, a latex thermosetting adhesive was applied on a sheet containing aluminum foil (aluminum foil thickness 15 μm), and a veneer (0.2 mm thickness, air dry weight 90 g / m ² ) was adhered by hot pressing. . After polishing the veneer surface, it was finished with a synthetic resin paint.
Two types of test bodies, the decorative material produced above and the base material alone (10 mm thickness), were prepared, and an exothermic test was performed.

Example 19 Production of a cosmetic incombustible material using a wood impregnated with a boron-based flame retardant as a base material According to the dry laminating method, a paper-reinforced paper having a basis weight of 30 g / m ² ; a urethane-based adhesive; a thickness of 15 μm Aluminum foil; Urethane-based adhesive; An aluminum foil-containing sheet made of paper-reinforced paper having a basis weight of 30 g / m ² was produced.
The thick veneer was impregnated with a boron-based flame retardant and dried, and then the thick veneer was laminated to form a 10.3 mm thick flame retardant plywood.
On the flame-retardant plywood, a latex thermosetting adhesive was applied, and the above-mentioned aluminum foil-containing sheet (aluminum foil thickness 15 μm) was adhered by hot pressing.
Further, a latex thermosetting adhesive was applied on a sheet containing aluminum foil (aluminum foil thickness 15 μm), and a veneer (0.2 mm thickness, air dry weight 90 g / m ² ) was adhered by hot pressing. . After polishing the veneer surface, it was finished with a synthetic resin paint.
Two kinds of test bodies, the decorative material produced above and the base material alone (10.3 mm thickness), were prepared, and an exothermic test was performed.

Example 20 Production of a cosmetic incombustible material using a base material mainly composed of waste paper Instead of the base material (wood impregnated with a boric acid flame retardant) used in Example 18, the base material is waste paper and the lock A cosmetic material was produced in the same manner as in Example 18 except that a base material (9 mm thick) containing wool and magnesium silicate was used.
Further, a cosmetic material having a veneer stuck on the base material used in Example 20 was manufactured in the same manner as in Example 1 for the comparative test, and the base material alone (9 mm thickness) used in Example 20 In addition, three types of test bodies were used and a heat generation test was performed.
In addition, the graph of the exothermic test result using said 3 types of test body was shown in FIG. 24 thru | or FIG.

Example 21 Production of a cosmetic incombustible material using a base material mainly composed of waste paper In place of the base material (wood impregnated with a boric acid flame retardant) used in Example 18, the base material is waste paper and an inorganic substance And the cosmetic material was manufactured like Example 18 except having used the base material (10-mm thickness) containing a flame retardant chemical | medical agent.

実施例２１ないし２３で製造した３種の化粧材に加え、比較試験用として実施例１と同様な方法で、実施例２１で使用した基材上に突板が貼着された化粧材を製造し、実施例２１で使用した基材単体（９ｍｍ厚）と共に５種の試験体とし、発熱性試験を実施した。
尚、上記５種の試験体のうち、基材単体、基材上に突板のみを接着した化粧材及び実施例２１の化粧材の発熱性試験結果のグラフを図２７ないし図２９に示した。 Examples 22 and 23
Other than changing the thickness of the aluminum foil of the sheet containing aluminum foil, the type of adhesive used for bonding the base material and the sheet containing aluminum foil, and the type of adhesive used for bonding the sheet containing aluminum foil and the veneer Produced the decorative materials of Examples 22 and 23 as shown in Table 3 in the same manner as in Example 21.
In the table, “aluminum thickness” indicates the thickness of the aluminum foil of the used aluminum foil-containing sheet, and “adhesive (base material / aluminum sheet)” indicates adhesion between the base material and the aluminum foil-containing sheet. The type of adhesive used is shown, and “adhesive (aluminum sheet / projection plate)” indicates the type of adhesive used for bonding the sheet containing aluminum foil and the projection plate.
Table 3

In addition to the three types of cosmetic materials produced in Examples 21 to 23, a cosmetic material in which a veneer was stuck on the base material used in Example 21 was produced in the same manner as in Example 1 for comparative tests. The exothermic test was carried out using five types of test bodies together with the base material (9 mm thickness) used in Example 21.
Of the above five types of test bodies, graphs of exothermic test results of the base material alone, the decorative material in which only the protruding plate is bonded to the base material, and the decorative material of Example 21 are shown in FIGS.

Comparative Example 1
Cosmetics were made in the same manner as in Example 18 except that instead of the base material (wood impregnated with boric acid flame retardant) used in Example 18, wood impregnated with chemicals (12 mm thick) was used as the base material. The material was manufactured.
Two types of test bodies were formed together with the above base material alone (12 mm thickness), and an exothermic test was conducted.

Comparative Example 2
Instead of the base material used in Example 18 (wood impregnated with boric acid flame retardant), the same procedure as in Example 18 was used, except that wood impregnated with chemicals (9.3 mm thick) was used as the base material. To make cosmetics.

Comparative Example 3
A cosmetic material was produced in the same manner as in Example 18 except that wood (9 mm thick) was used as the base material instead of the base material (wood impregnated with the boric acid flame retardant) used in Example 18.

Comparative Example 4
A cosmetic material was produced in the same manner as in Example 18 except that wood (12 mm thick) was used as the base material instead of the base material (wood impregnated with the boric acid flame retardant) used in Example 18.

Comparative Example 5
A cosmetic material was produced in the same manner as in Example 18 except that wood (9 mm thick) was used as the base material instead of the base material (wood impregnated with the boric acid flame retardant) used in Example 18.

Comparative Example 6
Example 18 is the same as Example 18 except that instead of the base material (wood impregnated with boric acid flame retardant) used in Example 18, wood (9 mm thickness: perforated processing: diameter 5, P25) was used as the base material. A cosmetic material was produced in the same manner.

表５

Test Example 1 Exothermic Test of Cosmetic Material The specimens manufactured in Examples 1 to 23 and Comparative Examples 1 to 6 were each subjected to a corn calorimeter test method based on ISO 5660-1.
Test method A test specimen (dimensions 99 mm × 99 mm) was placed horizontally, radiant heating of 50 kW / m ² was applied from above by a cone-type electric heater, ignited by electric spark ignition, and the flammability was determined by the calorific value. (Inflammable if the total calorific value for the test time of 20 minutes is 8 MJ / m ² or less, non-flammable if the total calorific value for 10 minutes is 8 MJ / m ² or less, quasi-incombustible, total calorific value for 5 minutes is 8 MJ / m Those that are ² or less are considered flame retardant.) The calorific value was determined from the oxygen consumption by combustion gas analysis. The test specimen was visually evaluated for cracking and melting.
Criteria 1. The total calorific value for 20 minutes after the start of heating is 8 MJ / m ² or less.
2. There should be no cracks or holes penetrating to the back side, which is harmful to fire protection, for 20 minutes after the start of heating.
3. The maximum exotherm rate should not exceed 200 kW / m ² for 20 minutes after the start of heating for 10 seconds or longer.
The test results are shown in Tables 4 and 5.
Table 4

Table 5

Test Results The base material used in Example 1 was found to be flame retardant because the total calorific value for the test time of 5 minutes was 8.0 MJ / m ² . Is The total calorific value of the test time of 20 minutes in the substrate, by 19.6MJ / m ² is adhered to the sliced veneer on the substrate, a non-standard as a result increases the 22.0MJ / m ² It was. On the other hand, in the decorative material of Example 1 in which the nonflammable sheet containing aluminum foil was inserted, the total calorific value for the test time of 20 minutes was 7.2 MJ / m ^2, which was less than that of the base material alone. As a result, the non-combustible standard was satisfied.

Further, in the decorative material in which the veneer is pasted on the base material, the color (reddish brown) of the base material is reflected on the veneer and is not the original color of the veneer. There was no coloration of the material, and it showed good concealment.
The decorative material of Example 1 exhibited a sufficient barrier property to suppress discoloration of the veneer due to moisture and moisture from the back surface during construction.

  As in Example 1, the decorative materials of Examples 2 to 23 exhibited a total calorific value equivalent to or lower than that of the base material alone, and as a result, all satisfied the nonflammability standards.

Based on the exothermic test results of Tables 4 and 5, in order to observe the correlation in the total calorific value of the test material 20 minutes of the decorative material (Examples and Comparative Examples) and the base material used in the decorative material, A graph showing the total calorific value (20 minutes) of the decorative material on the vertical axis and the total calorific value (20 minutes) of the base material alone used in the decorative material on the horizontal axis is shown in FIG. From FIG. 30, the total calorific value of the base material alone is 40 MJ / m ^2.
If it was below, it was shown that the decorative material manufactured using this base material becomes nonflammable (the total calorific value for a test time of 20 minutes is 8 MJ / m ² or less).

Example 24
A cosmetic material was produced in the same manner as in Example 1 except that an aluminum foil having a thickness of 30 μm was used instead of the aluminum foil having a thickness of 10 μm.
In the exothermic test, almost the same result as that obtained when an aluminum foil having a thickness of 10 μm was used was obtained.

Example 25
A twenty-fifth embodiment will be described with reference to FIG.
As shown in FIG. 2, on the base material 1 used in Example 1, an aqueous vinyl urethane-based adhesive is applied, an aluminum foil 3 is adhered, and a urethane-based adhesive is applied thereon to obtain a basis weight. A 30 g / m ² inter-paper reinforcing paper 4 is stuck, a latex thermosetting adhesive is applied thereon, and the veneer 5 (0.2 mm thickness, air dry weight 90 g / m ² ) is hot pressed. Stuck. After polishing the veneer surface, it was painted with a synthetic resin paint and finished to produce a decorative incombustible material.

Example 26
Paper-reinforced paper with a basis weight of 30 g / m ² ; Urethane adhesive; Aluminum foil with a thickness of 15 μm; Urethane adhesive; Paper-to-paper reinforced paper with a basis weight of 30 g / m ² ; Latex-based thermosetting adhesive A veneer (0.2 mm thickness, air dry weight 90 g / m ² ) was stuck by a hot press to produce a decorative sheet containing aluminum foil.
On the base material used in Example 1, a latex thermosetting adhesive was applied, and the decorative sheet containing aluminum foil was stuck by a hot press.
After polishing the veneer surface, it was painted with a synthetic resin paint and finished to produce a decorative incombustible material.

It is a figure showing the cross section of the cosmetic incombustible material manufactured in Example 1 thru | or 23 of this invention. It is a figure showing the cross section of the cosmetic incombustible material manufactured in Example 25 of this invention. It is a graph which shows the exothermic test result in the base material single-piece | unit used in Example 1 of this invention. It is a graph which shows the exothermic test result in the decorative material manufactured by adhere | attaching only a veneer on the base material used in Example 1 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 1 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 2 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 3 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 4 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 5 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 6 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 7 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 8 of this invention. It is a graph which shows the exothermic test result in the base material single-piece | unit used in Example 9 of this invention. It is a graph which shows the exothermic test result in the decorative material manufactured by adhere | attaching only a veneer on the base material used in Example 9 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 9 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 10 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 11 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 12 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 13 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 14 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 15 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 16 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 17 of this invention. It is a graph which shows the exothermic test result in the base material single-piece | unit used in Example 20 of this invention. It is a graph which shows the exothermic test result in the decorative material manufactured by adhere | attaching only a veneer on the base material used in Example 20 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 20 of this invention. It is a graph which shows the exothermic test result in the base material single-piece | unit used in Example 21 of this invention. It is a graph which shows the exothermic test result in the decorative material manufactured by adhere | attaching only a veneer on the base material used in Example 21 of this invention. It is a graph which shows the exothermic test result in the cosmetics manufactured in Example 21 of this invention. It is a graph which shows the correlation in the total calorific value of the test time for 20 minutes with the decorative material (Example and comparative example) and the base material simple substance used for this decorative material.

Explanation of symbols

1 base material 2 fibrous sheet 3 aluminum foil 4 fibrous sheet 5 decorative veneer

Claims (8)

A decorative material in which a decorative veneer is coated on a base material having a total calorific value of 40 MJ / m ² or less in a heat generation test according to ISO 5660-1 for 20 minutes, the base material and the base material Between the decorative veneer, an incombustible sheet made of a laminate of an aluminum foil and a fibrous sheet is inserted and laminated and integrated. At this time, the decorative veneer and the incombustible sheet are latex thermosetting. Adhered with an adhesive or a vinyl acetate adhesive, the substrate and the non-combustible sheet are urethane adhesive, vinyl acetate adhesive, vinyl acetate-acrylic copolymer adhesive, latex thermosetting adhesive or A cosmetic non-combustible material, which is bonded with an aqueous vinyl urethane adhesive and has a total calorific value of 8 MJ / m ² or less in a test time of 20 minutes in the exothermic test. The decorative incombustible material according to claim 1, wherein the base material is a wood plywood impregnated with a boron-based flame retardant or a boric acid-based flame retardant. The cosmetic incombustible material according to claim 1, wherein the base material is a base material mainly composed of a volcanic glassy foam and containing rock wool granular cotton, aluminum hydroxide powder and an organic binder. The cosmetic incombustible material according to claim 1, wherein the base material is a base material containing aluminum hydroxide as a main component and containing fibers and a resin. The cosmetic incombustible material according to claim 1, wherein the base material is a base material containing calcium silicate as a main component and containing vermiculite and pulp. The cosmetic incombustible material according to claim 1, wherein the base material is a base material containing waste paper as a main component and containing rock wool and magnesium silicate. The cosmetic incombustible material according to claim 1, wherein the base material is a base material containing waste paper as a main component and containing an inorganic substance and a flame retardant. The cosmetic incombustible material according to claim 1, wherein the base material is a base material containing gypsum as a main component and pulp.

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