JP2009035659A - Cationic antistatic agent, adhesive agent including antistatic agent, and dry laminate film dry-laminated by using adhesive agent - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cationic antistatic agent exhibiting antistatic performance in an adhesive agent for solventless dry laminate. <P>SOLUTION: This cationic antistatic agent is composed of a mixture of fatty acid dimethyl ethyl ammonium ethosulfate and propylene carbonate, this antistatic adhesive agent for solventless dry laminate includes the cationic antistatic agent, and this antistatic dry laminate film is formed by laminating a base film and a sealant film by using the adhesive agent of the solventless dry laminate. These products can exhibit superior antistatic performance even under low humidity. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a cationic antistatic agent, an adhesive containing the cationic antistatic agent, and a dry laminated film dry-laminated using the adhesive.

In the case of a plastic film, static electricity is generated by friction, which causes troubles due to charging of the film. As a means to prevent this charging, an antistatic agent is kneaded into the plastic film itself, or an antistatic agent is used. In the case of coating or laminating film, an antistatic agent is included in the laminating adhesive to remove the charge.
The following are known as antistatic adhesive primers having such applications.
Patent No. 2608383 (1) In an adhesive primer comprising a crosslinkable polymer having antistatic properties, the crosslinkable polymer has at least a carboxyl group and a quaternary ammonium base in the side chain. Adhesive primer that is a polymer.
(2) An electrostatic induction-preventing laminated film having a primer layer comprising the adhesive primer described in (1) above on a plastic film substrate.
(3) An electrostatic induction-preventing laminated film comprising a plastic film substrate layer, a primer layer comprising the adhesive primer described in the above (1), an adhesive layer, and another plastic film layer.
However, the known antistatic adhesive primer is solvent-based and has the disadvantage that its performance is greatly affected by humidity in the air.

  The object of the present invention is to develop a solvent-free antistatic agent, thereby preventing adverse effects on the natural environment and working environment, and an antistatic agent whose performance is not affected by atmospheric humidity, To provide an adhesive for dry lamination containing the antistatic agent and a dry laminate film dry-laminated using the adhesive.

  In order to achieve the above object, in the invention described in claim 1, the cationic antistatic agent is characterized by comprising a mixture of fatty acid dimethylethylammonium ethosulphate and propylene carbonate.

  The propylene carbonate has good compatibility with the fatty acid dimethylethylammonium ethosulphate cationic surfactant, and is characterized as an anhydrous ion dissociator.

  Next, in the invention described in claim 2, in the cationic antistatic agent described in claim 1, the mixing ratio of fatty acid dimethylethylammonium ethosulphate and propylene carbonate is 3 to 6: 1 by weight. It is characterized by this.

  Next, the invention according to claim 3 is characterized in that the antistatic adhesive for solvent-free dry lamination contains the cationic antistatic agent.

  Commonly used solvent-free adhesive main agent is the same polyurethane-based resin as solvent-based dry laminate adhesive, but it has a low molecular weight and is a mixture of fatty acid dimethylethylammonium ethosulphate and propylene carbonate. In addition to the antistatic performance, the solution has a feature of being easily mixed with a useless adhesive main agent.

  Further, in the present invention, the cationic antistatic agent mixture solution is added to and mixed with a solvent-free laminating adhesive main agent, and further mixed with a solvent-free isocyanate curing agent, whereby an antistatic solventless dry solution is obtained. It is characterized by being an adhesive for laminating.

  Next, in the invention described in claim 4, in the antistatic dry laminate film, the base film and the sealant film are dry laminated using the solvent-free dry laminate antistatic adhesive. It is characterized by.

  The antistatic agent of the present invention is a solvent-free type, exhibits sufficient antistatic performance even under low humidity, and is added to a solvent-free dry laminate adhesive main agent that does not contain moisture. The antistatic performance comparable to the effect of the ionic electrolytic antistatic agent due to the interposition can be exhibited.

  The propylene carbonate according to claim 1 is a colorless, odorless and less hygroscopic liquid, having a freezing point = −49.2 ° C., a boiling point = 241.7 ° C., and a dielectric constant of 69.0 at 23 ° C. It is a harmless high boiling organic solvent that dissolves polar substances well due to its high dielectric constant. In general, this characteristic liquid is used as a nonaqueous electrolytic solution of lithium perchlorate in an electrolytic solution of a lithium battery.

  Further, since the mixed solution of fatty acid dimethylethylammonium ethosulphate and propylene carbonate according to claim 1 is a high boiling point mixture, the adhesive main agent and the solvent-free type mixed and added to the solvent-free dry laminate adhesive main agent The isocyanate curing agent solution has a structure in which a quaternary ammonium salt propylene carbonate electrolyte remains in the polymer space of the adhesive layer coated on the base film, and the base film and the sealant film are bonded together. The dry laminated film laminated with the agent shows a low value of the frictional voltage on both outer surfaces, and can produce an adhesive having an excellent antistatic effect.

As described above, the outer surface friction band voltage of the dry laminate film using the solventless adhesive without adding the cationic antistatic agent according to claim 1 is used as a comparative example, and the performance effect of the present adhesive is used as the following example. Show.
The cationic antistatic agent used in the following examples was obtained by thoroughly mixing a mixed solution of fatty acid dimethylethylammonium etosulphate according to claim 1 and propylene carbonate at room temperature, and the mixing ratio was a weight ratio. 4: 1.
However, this mixing ratio is practically 6 to 3: 1. If this range is exceeded, the desired performance cannot be obtained.

The cationic antistatic agent according to claim 1 was obtained by sufficiently mixing fatty acid dimethylethylammonium ethosulphate and propylene carbonate at a ratio of 4: 1 by weight at normal temperature (16 ° C. to 33 ° C.). However, this mixing ratio is practically sufficient even in the range of 6 to 3: 1.
The molecular formulas of fatty acid dimethylethylammonium ethosulphate and propylene carbonate in the above cationic antistatic agent are as shown in Chemical formulas 1 and 2.

The above-described cationic antistatic agent of the present invention was added to and mixed with a general-purpose solventless dry laminating adhesive, laminated as a laminate film for soft packaging, and its performance was confirmed.
As the solvent-free dry laminator, a polytype Okazaki Machinery Co., Ltd. was used. The roll arrangement of the coating part is such that the first roll is a rubber roll, the second roll is an iron roll, the third roll (coating roll) is a rubber roll, and the fourth roll is an iron roll. The rotation speed of each roll was set at a peripheral speed ratio of about 1: 10: 100 for the first: second: third, and the coating amount was adjusted with the rotation speed of the third roll. Each iron roll was set to 80 ° C. for the second roll and 70 ° C. for the fourth roll, and the iron roll side of the nip roll was set to 45 ° C.

Solvent-free adhesive is manufactured by Toyo Morton Co., Ltd., the main agent is “NCO-terminated polyether urethane” (AD-N369AF), and the curing agent is “OH-terminated polyether urethane” (AD-N369B). used.
The base film was biaxially stretched PET (polyethylene terephthalate) manufactured by Toyobo Co., Ltd., and the sealant film was LLDPE (linear polyethylene) manufactured by Toyobo Co., Ltd. The above configuration is shown in Table 1.

加工速度は、約１００ｍ／分で基材フィルムの二軸延伸ＰＥＴのコロナ処理面に接着剤を塗布し、シーラントフィルムのＬＬＤＰＥのコロナ処理面を貼り合わせ、４０℃の熟成室に４８時間保管した。
塗工した接着剤の塗布量の測定結果は、１．１〜１．２ｇ／ｍ²であった。 In advance, the main agent, the curing agent, and the cationic antistatic agent are heated to 90 ° C. with a thermostat. Each was quickly blended at the following ratio, poured between the first roll and the second roll of the solventless dry laminator, kneaded for 5 minutes, and tested.
The test was carried out with two types: a normal formulation and an antistatic additive-added formulation. The results are shown in Table 2.

The processing speed was about 100 m / min, an adhesive was applied to the corona-treated surface of biaxially stretched PET of the base film, the LLDPE corona-treated surface of the sealant film was bonded, and stored in an aging room at 40 ° C. for 48 hours. .
The measurement result of the coating amount of the coated adhesive was 1.1 to 1.2 g / m ² .

The laminate film after storage aging was measured for performance such as laminate strength, heat seal strength, and frictional voltage value.
-Laminate strength measurement The base material and the sealant film were peeled in a T-shape from the end of a sample piece cut to a width of 15 mm, and the strength when peeled at a pulling rate [300 mm / min] was measured using an autograph. The results are shown in Table 3.

通常配合接着剤では安定した、本発明帯電防止剤添加配合接着剤では若干弱いヒートシール強度結果を得た。 -Heat seal strength measurement The sealant film surfaces of the laminated film of the sample face each other [150 ° C, 1 kg / cm ² , 1 second] and heat sealed. A sample piece obtained by cutting the heat-sealed portion into a width of 15 mm was set in an autograph in a T shape, and the strength when peeled at a pulling speed [300 mm / min] was measured. The results are shown in Table 4.

The heat-seal strength results that were stable with the usual compounding adhesive and slightly weak with the antistatic agent-added compounding adhesive of the present invention were obtained.

この表５から本発明帯電防止剤添加配合が非常に優れた帯電防止効果を示したことが判る。 -Measurement of frictional voltage value The frictional voltage was measured in the environment of 23 degreeC and 53% RH. The results are shown in Table 5.

From Table 5, it can be seen that the antistatic agent-added composition of the present invention showed a very excellent antistatic effect.

As in Example 2, a solvent-free adhesive manufactured by Toyo Morton Co., Ltd. was selected, the main agent was “NCO-terminated polyether urethane”, and the curing agent was “OH-terminated polyether urethane”. did.
The base film was biaxially stretched nylon manufactured by Unitika Ltd., and the sealant film was LLDPE (linear polyethylene) manufactured by Toyobo Co., Ltd. This configuration is shown in Table 6.

加工速度は、約１００ｍ／分で基材フィルムの二軸延伸ナイロンのコロナ処理面に接着剤を塗布し、シーラントフィルムのＬＬＤＰＥのコロナ処理面を貼り合わせ、４０℃の熟成室に４８時間保管した。
塗工した接着剤の塗布量の測定結果は、１．６〜１．７ｇ／ｍ²であった。 In advance, the main agent, the curing agent and the antistatic agent of the present invention are heated to 90 ° C. with a thermostat. Each was quickly blended at the following ratio, poured between the first roll and the second roll of the solventless dry laminator, kneaded for 5 minutes, and tested.
The test was carried out with two types: a normal formulation and an antistatic agent added formulation. This blending example is shown in Table 7.

The processing speed was about 100 m / min, the adhesive was applied to the corona-treated surface of the biaxially stretched nylon of the base film, the LLDPE corona-treated surface of the sealant film was bonded, and stored in an aging room at 40 ° C. for 48 hours. .
The measurement result of the coating amount of the coated adhesive was 1.6 to 1.7 g / m ² .

The laminate film after storage aging was measured for performance such as laminate strength, heat seal strength, and frictional voltage value.
-Laminate strength measurement The base material and sealant film were peeled in a T-shape from the end of a sample piece cut to a width of 15 mm, and the strength when peeled at a pulling rate [300 mm / min] was measured using an autograph. . The results are shown in Table 8.

通常配合接着剤では安定した、本発明帯電防止剤添加配合接着剤では若干弱いヒートシール強度結果を得た。 -Heat seal strength measurement The sealant film surfaces of the laminated film of the sample face each other [150 ° C, 1 kg / cm ² , 1 second] and heat sealed. A sample piece obtained by cutting the heat-sealed portion into a width of 15 mm was set in an autograph in a T shape, and the strength when peeled at a pulling speed [300 mm / min] was measured. The results are shown in Table 9.

A heat seal strength result was obtained which was stable with the conventional compounding adhesive and slightly weak with the antistatic agent-added compounding adhesive of the present invention.

この表１０から本発明帯電防止剤添加配合接着剤が優れた帯電防止効果を示したことが判る。
以上の実施例において、ドライラミネートされたフィルムのラミネート強度は、溶剤系の接着剤を用いたものと比較して、全く遜色が無かった。 -Measurement of frictional voltage value The frictional voltage was measured in the environment of 23 degreeC and 53% RH. The results are shown in Table 10.

From Table 10, it can be seen that the antistatic agent-added blended adhesive of the present invention showed an excellent antistatic effect.
In the above examples, the laminate strength of the dry-laminated film was completely inferior to that using a solvent-based adhesive.

  The cationic antistatic agent of the present invention can also be used to add antistatic performance to solvent-based printing inks and solvent-based paint bases.

Claims (4)

  A cationic antistatic agent comprising a mixture of fatty acid dimethylethylammonium etosulphate and propylene carbonate.   The cationic antistatic agent according to claim 1, wherein the mixing ratio of the fatty acid dimethylethylammonium ethosulphate and the propylene carbonate is 3 to 6: 1 by weight.   An antistatic adhesive for solventless dry laminating comprising the cationic antistatic agent.   An antistatic dry laminate film obtained by dry laminating a base film and a sealant film using the solventless dry laminate antistatic adhesive.