JP4227205B2 - Adhesive composition for decorative veneer - Google Patents

Description

【００２２】
このようにして得た接着剤をつき板（樹種 ホワイトオーク 厚み０．２５ｍｍ）とホルムアルデヒドを含まない合板（樹種 イエローメランチ、厚み９ｍｍ、３プライ、水溶性高分子ーイソシアネート系接着剤を用いて製造）を用意した。接着剤は合板面にロールスプレッダで片面塗布し、つき板をオーバレイし、熱圧接着機械で接着した。塗布量は１２０ｇ／平方メートル、熱圧条件は１１０℃にて１分間とし接着後室温で７日間養生後性能評価した。得られたつき板化粧板の接着性能を表１に示す。
【００２３】
表１における各種試験評価方法ならびにその判定基準は以下の通りである。
ＪＡＳ１類浸せきはくり試験：
接着試験片として接着物を７５mm角に裁断したものを沸騰水に４時間浸せき後、６０±３℃で２０時間乾燥し、さらに沸騰水中に４時間浸せきした後、６０±３℃で３時間乾燥する。
適合基準は、同一接着層におけるはく離しない部分の長さがそれぞれの側面において５０mm以上である。
【００２４】
シミだし性確認試験：
つき板を熱圧接着後、目視による導管部からの接着剤のシミだしの確認と着色剤を塗布後の色ムラにより確認する。
判定基準は、その程度に対応して記号により、下記の通り表示する。
◎ シミだし、色ムラが確認できない
○ 僅かにシミだし、色ムラ発生あり
△ 部分的にシミだし、色ムラあり
× 全般にシミだし、色ムラが著しい
【００２５】
ホルムアルデヒドの有無（放散ホルムアルデヒド量試験）：
日本農林規格（普通合板）に規定されているデシケーター利用のアセチルアセトン法による比色定量によるホルムアルデヒドの放散量試験によってホルムアルデヒドの放散濃度を求める。
【００２６】
パンク現象：
熱圧接着時においてプレス解圧直後、パンクによるフクレ発生の有無を確認する。
【００２７】
本発明の実施例１では、パンク現象の発生は無く、シミだしも無く、ＪＡＳ１類のはく離試験も極めて良好であり優れた接着性を有する。さらに、人体に有害なホルムアルデヒドの発生も当然ながら全く無く、すべての点で極めて優れている。これに対し、比較例１に示す従来のユリア樹脂を使用する接着剤では、パンク現象およびＪＡＳ１類試験では極めて良好であるが、シミだしは不良であり、ホルムアルデヒドの発生がみられる。また、従来の多官能エポキシを使用する比較例２の接着剤では、ホルムアルデヒドの発生は無く、シミだしも良好であるが、パンク現象は発生し著しく不良である。
【００２８】
【発明の効果】
以上説明したように、本発明のつき板化粧板用接着剤組成物は、従来のユリア樹脂あるいはユリア−メラミン樹脂のようにホルムアルデヒドとの縮合物を主とする接着剤組成物でないので、人体に有害なホルムアルデヒドが放散され老化することはない。しかし、その接着力は従来の接着剤に勝るとも劣ることのない優れた接着性を有する。さらに、従来のユリア樹脂あるいはユリア−メラミン樹脂を主とする接着剤の場合に生じるつき板表面へのシミだしも、本発明では発生しないのでつき板の着色加工に支障をもたらすこともない。したがって化粧板自体の美粧性に問題が生じることもない。さらに、つき板の合板への熱圧接着においてパンクを生じることもないなど、つき板化粧板用接着剤組成物として優れた効果を奏するものである。BACKGROUND OF THE INVENTION
The present invention relates to an adhesive composition for a decorative veneer.
[0002]
[Prior art]
Various veneer veneers, for example, furniture surface veneer or flooring used for house flooring, wood veneer materials such as veneer and plywood, MDF, particle board, etc., aqueous latexes such as vinyl acetate emulsion or SBR latex And a mixed adhesive of formaldehyde resin such as urea resin or urea-melamine resin. The flooring material with the adhesive board bonded to the plywood with such an adhesive has a low molecular weight portion of the urea resin or urea-melamine resin, which stains the surface of the board, hinders the coloring process of the adhesive board, and colors the adhesive board. Unevenness occurs, and the cosmetic properties of the decorative board itself become a problem. In addition, formaldehyde, that is, formalin (hereinafter referred to as “formaldehyde”) contained in the urea resin or the urea-melamine resin from the decorative veneer bonded with a mixed adhesive obtained by blending the urea resin or the urea-melamine resin. Hazardous to the human body as a result of being released into the atmosphere has become a serious problem. In addition, these resins cause an aging phenomenon of the adhesive due to a formaldehyde reaction over time, and cause a decrease in adhesive performance.
[0003]
[Problems to be solved by the invention]
The problem to be solved by the present invention is that there is no smearing of the adhesive component from the surface of the adhesive plate, and therefore, a decorative decorative plate with excellent cosmetic properties can be obtained without causing uneven coloring in the coloring process of the adhesive plate. The present invention also provides a novel adhesive composition for a veneer decorative board in which formaldehyde harmful to the human body is not diffused from the veneer decorative board and does not age.
[0004]
[Means for Solving the Problems]
The means of the present invention for solving the above-mentioned problems are aqueous latexes, preferably vinyl acetate resin or vinyl acetate copolymer resin emulsion, or SBR latex (for example, copolymerization ratio of styrene and butadiene is 40 to 70:60). -30 latex) is an adhesive composition for a decorative veneer made of an amino-glyoxal resin.
[0005]
That is, in the invention of claim 1, it is an adhesive composition for a decorative veneer board comprising an aqueous latex and an amino-glyoxal resin.
[0006]
In the invention of claim 2, the adhesive composition for decorative decorative boards according to the means of claim 1, wherein the amino glyoxal resin is blended in an amount of 10 to 60 parts by weight as a solid content with respect to 100 parts by weight of the solid content of the aqueous latex It is.
[0007]
In the invention of claim 3, the aqueous latex is at least one selected from a vinyl acetate resin emulsion, a vinyl acetate copolymer resin emulsion, and an SBR latex. It is a composition.
[0008]
This vinyl acetate emulsion is usually a polymer obtained by polymerizing a vinyl acetate monomer using polyvinyl alcohol as a protective colloid, and is used as a so-called woodworking adhesive. A vinyl acetate copolymer emulsion is a kind of unsaturated monomer such as ethylene, acrylic acid esters, methacrylic acid esters, vinyl propionate, etc., mainly containing vinyl acetate monomer in the presence of an emulsifier such as polyvinyl alcohol. A polymer dispersion obtained by copolymerizing the above. SBR latex is a polymer dispersion obtained by copolymerizing a styrene monomer and a butadiene monomer in the presence of a surfactant. These aqueous latexes include aqueous latexes having reactivity introduced by means such as the use of an emulsifier having a functional group such as a carboxyl group, glycidyl group, hydroxyl group, amino group, amide group, or copolymerization with an unsaturated monomer. You can use it. Of these aqueous latexes, it is preferable to use an SBR latex that has the least spotting on the surface of the plate.
[0009]
In the invention of claim 4, the SBR latex is a latex having a copolymerization ratio of styrene and butadiene of 40-70: 60-30.
[0010]
In the invention of claim 5, the amino-glyoxal resin reacts with 1 mol of urea or melamine with 2 to 5 mol of glyoxal and 0.02 to 0.5 mol of acrylamide. The adhesive composition for decorative laminates according to any one of claims 1 to 4, which is a polycondensate.
[0011]
The amino-glyoxal resin used in the present invention is urea or a melamine / glyoxal / acrylamide polycondensate, and a commercially available 40% aqueous solution can be advantageously used as the glyoxal.
[0012]
When the glyoxal is less than 2 moles per mole of either urea or melamine, the effects of the present invention cannot be sufficiently exerted. Moreover, even if it exceeds 5 mol, the effect of this invention does not improve any more, and on the contrary, the stability of the working fluid deteriorates, which is not preferable.
[0013]
When acrylamide is less than 0.02 mol per 1 mol of either urea or melamine, the effects of the present invention cannot be fully exhibited. On the other hand, when the amount exceeds 0.5 mol, the stability of the working fluid itself deteriorates, which is not preferable.
[0014]
In the case of using an aqueous solution of glyoxal in the reaction of urea or melamine, glyoxal and acrylamide, no particular solvent is required, and the polycondensate is obtained as an aqueous solution. The reaction temperature is suitably 20 to 70 ° C., and there is a tendency for coloring when the reaction is carried out at a high temperature. In the reaction, a polymerization initiator is used. As the polymerization initiator, those usually used in an aqueous polymerization reaction can be used. Examples include hydrogen peroxide, potassium persulfate, and ammonium persulfate. If necessary, a compound that forms a redox with these polymerization initiators, such as sodium bisulfite, may be used in combination. In addition, this reaction is generally greatly influenced by pH, and can be carried out only at the pH on the acidic side because it involves the crab allo reaction particularly on the alkali side.
[0015]
As the SBR latex, the copolymerization ratio of styrene and butadiene is good when the amount of styrene is 40 to 70%, and when it exceeds 70%, the adhesive film becomes too hard and the decorative decorative board tends to warp. On the other hand, if it is less than 40%, it is too soft as an adhesive, and a puncture phenomenon tends to occur during hot-pressure bonding.
[0016]
In the blending of the aqueous latex and the amino / glyoxal resin, 10-60 parts by weight of the amino / glyoxal resin as a solid content is blended with respect to 100 parts by weight of the solid content of the aqueous latex when this amount is less than the above range. When the effect of the present invention is not sufficiently exhibited and the above range is exceeded, the effect is not increased even if the amount is increased, which is uneconomical. To this adhesive, inorganic fillers such as wheat flour, wood flour, calcium carbonate, talc, and moisture can be appropriately blended for the purpose of increasing the weight, suiting the roll spreader, and adjusting the viscosity.
[0017]
Since this adhesive is cured at the time of hot-pressure bonding, it is not necessary to use a curing agent such as ammonium chloride like conventional formaldehyde resins. However, in the case of bonding in a very short time even at room temperature bonding or heat pressure, a known curing agent used in conventional formaldehyde resins such as metal salts and ammonium chloride can be appropriately used.
[0018]
When the adhesive of the present invention is used, it may be bonded using a standard bonding method in the industry for manufacturing a decorative veneer, and the adhesive is usually applied to the dressing board with an adhesive applicator such as a roll spreader. After application, it is bonded with a hot-pressure bonding machine such as a steam hot press.
[0019]
Embodiment
Embodiments of the present invention will be described below. One specific method for obtaining the amino-glyoxal resin of the present invention is as follows: 725 g (5 mol) of 40% glyoxal, 120 g (2 mol) of urea, 8.5 g (0.05 mol) of 50% acrylamide aqueous solution in a flask. Then, 0.8 g of potassium persulfate and 0.2 g of sodium hydrogen sulfite are charged, and the mixture is heated to 45 ° C. with stirring and reacted for 5 hours. Then add caustic soda and water. In this way, an amino-glyoxal resin solution in an aqueous solution having a pH of 4.5 and a concentration of 45% is obtained. On the other hand, as a typical method for producing an adhesive, SBR latex (trade name: DL-612, manufactured by Asahi Kasei) having a copolymerization ratio of styrene and butadiene of 60:40 and a solid content of 48 weight percent is used as an aqueous latex. After mixing and kneading 30 parts by weight of amino glyoxal resin and 30 parts by weight of flour with 70 parts by weight of this aqueous latex, 20 parts by weight of water is stirred for viscosity adjustment. Add gradually while adding. This adhesive is 40 parts by weight of the solid content of the amino-glyoxal resin with respect to 100 parts by weight of the solid content of the aqueous latex. Each adhesive is inserted between the adhesive plate and the base plate plywood, and this adhesive is bonded under heat and pressure.
[0020]
Hereinafter, in the examples, “part” means “part by weight”, and “%” means “% by weight”.
【Example】
The adhesive of the blending ratio in the above-mentioned embodiment of the present invention is defined as Example 1, and an adhesive composed of a conventional SBR latex, urea resin (trade name Euroid # 22, Mitsui Toatsu), flour, and water is compared. In Example 1, an adhesive composed of SBR latex, wheat flour, and polyfunctional epoxy resin was used as Comparative Example 2. The aqueous latex used in Comparative Example 1 is the same as Example 1, and Example 1 and Comparative Example 1 are solid blending ratios and solid contents except that 20% ammonium chloride is blended as a curing agent. The ratio was almost the same. In Comparative Example 3, carboxyl-modified SBR latex (trade name: DL-670, manufactured by Asahi Kasei) was used for crosslinking with the polyfunctional epoxy resin.
[0021]
[Table 1]

[0022]
Using the adhesive board thus obtained (tree species white oak thickness 0.25 mm) and formaldehyde-free plywood (tree species yellow meranti, thickness 9 mm, 3 ply, water-soluble polymer-isocyanate adhesive) Manufacturing) was prepared. The adhesive was applied to one side of the plywood with a roll spreader, overlaid with a glue plate, and bonded with a hot-pressure bonding machine. The coating amount was 120 g / square meter, and the heat and pressure conditions were 110 ° C. for 1 minute. After bonding, performance evaluation was conducted after curing for 7 days at room temperature. Table 1 shows the adhesion performance of the obtained decorative decorative board.
[0023]
Various test evaluation methods and criteria for determination in Table 1 are as follows.
JAS1 immersion test:
An adhesive test piece cut into a 75 mm square was immersed in boiling water for 4 hours, then dried at 60 ± 3 ° C. for 20 hours, further immersed in boiling water for 4 hours, and then dried at 60 ± 3 ° C. for 3 hours. To do.
The conformity standard is that the length of the non-peeling portion in the same adhesive layer is 50 mm or more on each side surface.
[0024]
Blemish check test:
After adhesion of the plate with heat and pressure, it is confirmed by visual confirmation of the adhesive stain from the conduit part and color unevenness after applying the colorant.
Judgment criteria are displayed as follows by symbols corresponding to the degree.
◎ Spots and color unevenness can not be confirmed ○ Slightly stains and color unevenness occurs △ Partially stains and color unevenness × General stains and color unevenness is remarkable 0025
Presence or absence of formaldehyde (emission formaldehyde test):
The formaldehyde emission concentration is determined by a formaldehyde emission test by colorimetric determination with the acetylacetone method using a desiccator specified in the Japanese Agricultural Standards (ordinary plywood).
[0026]
Punk phenomenon:
Immediately after the pressure is released during hot-pressure bonding, the presence or absence of blistering due to puncture is checked.
[0027]
In Example 1 of the present invention, there was no occurrence of a puncture phenomenon, no spots, a JAS1 peel test was very good, and excellent adhesion was obtained. Furthermore, there is no formaldehyde that is harmful to the human body, and it is excellent in all respects. On the other hand, the adhesive using the conventional urea resin shown in Comparative Example 1 is very good in the puncture phenomenon and the JAS1 class test, but the stain is not good and formaldehyde is generated. Further, in the adhesive of Comparative Example 2 using a conventional polyfunctional epoxy, formaldehyde is not generated and stains are good, but a puncture phenomenon occurs and is extremely poor.
[0028]
【The invention's effect】
As described above, since the adhesive composition for decorative board of the present invention is not an adhesive composition mainly composed of a condensate with formaldehyde like the conventional urea resin or urea-melamine resin, Harmful formaldehyde is released and does not age. However, the adhesive strength is superior to conventional adhesives and has excellent adhesiveness. Further, since the stain on the surface of the plate that occurs in the case of an adhesive mainly composed of a conventional urea resin or urea-melamine resin does not occur in the present invention, there is no problem in coloring the plate. Therefore, there is no problem with the cosmetic properties of the decorative board itself. Furthermore, there is no puncture in the hot-pressure bonding of the laminated board to the plywood, and the excellent effect as the adhesive composition for the laminated board decorative board is exhibited.

Claims (5)

An adhesive composition for a decorative veneer, comprising an aqueous latex and an amino-glyoxal resin. The adhesive composition for decorative laminates according to claim 1, wherein 10 to 60 parts by weight of amino / glyoxal resin as a solid content is blended with 100 parts by weight of the solid content of the aqueous latex. The adhesive composition for decorative decorative boards according to claim 1 or 2, wherein the aqueous latex is at least one selected from a vinyl acetate resin emulsion, a vinyl acetate copolymer resin emulsion, and an SBR latex. The adhesive composition for decorative decorative boards according to claim 3, wherein the SBR latex is a latex having a copolymerization ratio of styrene and butadiene of 40 to 70:60 to 30. The amino-glyoxal resin is a polycondensate obtained by reacting 1 mol of either urea or melamine with 2 to 5 mol of glioxal and 0.02 to 0.5 mol of acrylamide. The adhesive composition for a veneer decorative board according to any one of claims 1 to 4.
[0001]