JPH06297645A - Separator and adherent member - Google Patents

Abstract

PURPOSE:To provide a separator and an adherent member having a silicone release agent processing layer on a base material consisting of polyethylene film or polyethylene laminated paper, with which adhesion will not be lowered since the silicone component moving from the release agent processing layer to an adhesive face can be reduced. CONSTITUTION:A separator comprises a silicone release agent processing layer provided on one face or both faces of a polyethylene film or a polyethylene laminated paper which is cross-linked by electron beam irradiation. An adherent member has an adhesive layer on the other face.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a separator having a silicone-based release agent treatment layer on a substrate made of polyethylene film or polyethylene laminated paper, or an adhesive member. The present invention relates to a separator and an adhesive member that do not reduce the adhesive strength because the amount of silicone components that migrate can be reduced.

[0002]

2. Description of the Related Art Conventionally, a silicone-based release agent has been well known as a release agent used for back treatment of an adhesive member and formation of a separator for protecting an adhesive surface. In such a release agent, releasability from the adhesive surface is a basic performance required for the release agent film. It is known to add a silicone component that is difficult to cure to the silicone release agent in order to express this performance, but this method requires that an uncured silicone component exists on the surface and inside of the cured release agent film. Therefore, when used on the back surface of the separator or the adhesive member, the adhesive surface is contaminated and the adhesive strength is lowered. Further, even when a silicone component which is hard to cure is not added to the silicone-based release agent, there is a problem that the silicone component migrates to the adhesive surface and the adhesive strength is reduced.

[0003]

Further, a sheet formed by mixing a polyolefin resin such as polyethylene and a specific silicone is irradiated with an electron beam or the like to cross-link and bond the both, and then peeling is performed. A liner is known (Japanese Patent Laid-Open No. 2-252781). However, in such a method, since the polyolefin resin and the silicone are mixed, it is difficult to make the amount of silicone locally present on the surface of the release liner constant, and thus a stable release force cannot be obtained. was there. Further, the release liner has a problem that a release liner having a smaller release force cannot be obtained as compared with a release liner having a silicone-based release agent treatment layer provided on a polyolefin-based resin film.

[0004]

The present invention has been made to solve the above problems, and a polyethylene film or a laminated paper with the same is irradiated with an electron beam as a base material of a separator or an adhesive member. By cross-linking the polyethylene and providing a silicone-based release agent-treated layer on the cross-linked polyethylene layer, the silicone component that migrates from the release-agent-treated layer to the adhesive surface can be reduced. It is intended to increase the adhesive strength.

That is, the first aspect of the present invention is that a silicone-based release agent treatment layer is provided on one side or both sides of a polyethylene film crosslinked by electron beam irradiation or a laminated paper of the crosslinked polyethylene and paper. A separator is provided.

A second aspect of the present invention has a silicone-based release agent treatment layer on one side of a polyethylene film crosslinked by electron beam irradiation or a laminated paper of the crosslinked polyethylene and paper, and an adhesive on the other side. An adhesive member having a layer is provided. .

[0007]

According to the above constitution, the polyethylene is crosslinked by the electron beam irradiation and its physical and chemical properties are changed, so that the adhesiveness with the silicone release agent treatment layer is improved. It has been found that the amount of the silicone component transferred to the adhesive surface in contact with the release agent-treated layer is reduced. Although the reason why the amount of the silicone component transferred to the adhesive surface in contact with the silicone release agent-treated layer is reduced has not been clarified, the change in the surface tension of polyethylene due to electron beam irradiation is small, and it is smaller than that of polyethylene. It has been confirmed that the amount of silicone component transferred to the adhesive surface is almost the same as in the case of polyethylene even when polyester with high surface tension is used, so it is considered that the change in surface tension of polyethylene has little effect. . Therefore, it is presumed that the influence of the structural change that polyethylene is crosslinked is large.

The polyethylene used as the base material of the separator or the adhesive member of the present invention is not particularly limited, and examples thereof include low density polyethylene, medium density polyethylene,
Examples include high-density polyethylene and linear polyethylene, and these may be used alone or as a mixture of a plurality of them at any ratio.

As the substrate in the present invention, polyethylene laminated paper obtained by laminating the above polyethylene film on one or both sides of paper can also be used. The paper is not particularly limited, and any paper such as kraft paper, high-quality paper, glassine paper can be used.

In the present invention, the above-mentioned base material, that is, the polyethylene film or the polyethylene laminated paper, is formed by crosslinking polyethylene by electron beam irradiation. Here, the irradiation dose of the electron beam is not particularly limited as long as it is an amount sufficient to crosslink polyethylene, but is usually 1 to 10
It is preferably Mrad (10 to 100 kGy).
When polyethylene laminated paper is obtained, polyethylene can be laminated on the paper and then the polyethylene layer can be crosslinked by irradiating with an electron beam. It can also be obtained by stacking.

Here, as a method for confirming whether or not polyethylene is crosslinked, for example, a method of measuring the gel fraction thereof can be mentioned. The gel fraction as used herein is represented by the percentage of the 105 ° C xylene-insoluble portion of polyethylene with respect to the initial weight. In the present invention, if the electron beam is irradiated to such an extent that the gel fraction is not 0, the effect of reducing the amount of transfer of the silicone component to the adhesive surface can be obtained. It is preferable to set the irradiation amount so that the fraction is 5% by weight or more, particularly about 5 to 90% by weight.

In the separator of the present invention, a silicone release agent treatment layer is provided on one side or both sides of the polyethylene film or polyethylene laminated paper. The silicone-based release agent is not particularly limited, but for example, a thermosetting silicone-based release agent of condensation type or addition type, a radiation-curable silicone-based release agent of ultraviolet ray or electron beam, etc. may be appropriately used.

The pressure-sensitive adhesive member of the present invention has the above silicone-based release layer on one side of a polyethylene film cross-linked by electron beam irradiation or a laminated paper of the cross-linked polyethylene and paper, and the pressure-sensitive adhesive on the other side. With layers. The pressure-sensitive adhesive is not particularly limited, but, for example, an acrylic or rubber-based pressure-sensitive adhesive can be appropriately used.

[0014]

The present invention will be described in more detail with reference to the following examples, but the present invention is not limited to these examples. The term "parts" here means parts by weight. Example 1 After irradiating an electron beam with 3 Mrad (30 kGy) from both sides of a laminated paper obtained by laminating a medium-density polyethylene film having a thickness of 27 μm on both sides of a high-quality paper having a basis weight of 100 g / m ² ,
On both sides of this polyethylene laminated paper, an addition reaction type silicone release agent (KS-772 manufactured by Shin-Etsu Chemical Co., Ltd.) 120
Parts (parts by weight of solid content, the same applies hereinafter) and 1.0 part of its curing catalyst (PL-3, manufactured by the same company) were applied with a mixed solution adjusted to a solid content concentration of 2% by weight, and applied at 100 ° C. Heat treatment was performed for 3 minutes to obtain a separator having a release agent treatment layer of 0.2 g / m ² .

Example 2 In Example 1, the irradiation electron beam was irradiated with 1 Mrad (10
A separator was obtained in the same manner as in Example 1, except that the separator was changed to kGy).

Comparative Example 1 Example 1 is the same as Example 1 except that the electron beam is not irradiated.
A separator was obtained in the same manner as in.

Example 3 An electron beam of 5 Mrad (50 kG was applied from the polyethylene layer side of a laminated paper obtained by laminating a low-density polyethylene film having a thickness of 20 μm on one side of kraft paper having a basis weight of 73 g / m ^2.
y) After irradiation, an electron beam-curable silicone release agent (RC, Gold Schmidt, RC
-725) is applied and the electron beam is irradiated with 3 Mrad (30 kG
y) Irradiation gave a separator having a release agent treatment layer of 2.4 g / m ² .

Example 4 In Example 3, two electron beams were applied after the release agent was applied.
A separator was obtained in the same manner as in Example 3 except that Mrad (20 kGy) was used.

Comparative Example 2 A separator was obtained in the same manner as in Example 3, except that the electron beam was not irradiated before the release agent was applied.

Comparative Example 3 A separator was obtained in the same manner as in Example 4, except that the electron beam was not irradiated before the release agent was applied.

Example 5 An electron beam of 5 Mrad (50 kG) was applied from the polyethylene layer side of a laminated paper obtained by laminating a linear polyethylene film having a thickness of 13 μm on one side of kraft paper having a basis weight of 73 g / m ^2.
y) After irradiation, an ultraviolet-curable silicone release agent (X-62-, manufactured by Shin-Etsu Chemical Co., Ltd.) is applied on the polyethylene layer.
7296), and the light intensity is 50 mJ / cm with a high pressure mercury lamp.
^It was irradiated with ² ultraviolet rays to obtain a separator having a release agent treatment layer of 0.6 g / m ² .

Example 6 A 100 μm-thick low density polyethylene film was irradiated with an electron beam at 5 Mrad (50 kGy), and then one side of this polyethylene film was subjected to an addition reaction type silicone release agent (KS-772 manufactured by Shin-Etsu Chemical Co., Ltd.). 120 parts (weight part of solid content, the same applies hereinafter) and its curing catalyst (manufactured by the same company, PL
-3) Heptane was added to 1.0 part to obtain a solid content of 2% by weight.
The mixed solution prepared in (1) was applied and heated at 100 ° C. for 3 minutes to obtain a separator having a release agent-treated layer of 0.2 g / m ² .

Comparative Example 4 A separator was obtained in the same manner as in Example 6 except that the electron beam was not irradiated.

Table 1 shows the results of evaluation tests conducted on the separators obtained in Examples and Comparative Examples by the following method.

[Gel Fraction of Polyethylene Layer] The percentage of polyethylene insoluble in 105 ° C. xylene is expressed as a percentage with respect to the initial weight.

The separators obtained in the examples and the comparative examples had 2
A commercially available acrylic adhesive tape (No. 31B, manufactured by Nitto Denko Corporation) having a width of 50 mm is weighted at 0 ° C. and 65% RH under a weight of 2 k.
g of rubber cola was reciprocated once for pressure bonding, and the pressure-sensitive adhesive tape was left at 70 ° C. for 24 hours with a load of 50 g / cm ² being applied. Then release the load, 20 ℃, 65%
It was left under RH for 2 hours to obtain an adhesive member for evaluation.

[Transition of Silicone to Adhesive Surface] The adhesive tape of the adhesive member was peeled off from the separator, and the amount of silicon on the adhesive surface was analyzed by a fluorescent X-ray analyzer. The result is 1
The number of counts per second (kcps) is shown in Table 1.

[Residual Adhesive Strength] The adhesive tape made of stainless steel (SUS30) peeled off from the separator of the adhesive member.
The adhesive force to 4) was measured according to the 180 degree peeling method of JIS Z0237. The results are shown in Table 1.

[0029]

[Table 1]

As is clear from Table 1, it is understood that cross-linking the polyethylene layer reduces the amount of silicone transferred to the adhesive surface and obtains a strong adhesive force.

[0031]

As described above, according to the present invention, since polyethylene used as the base material of the separator and the adhesive member is crosslinked by electron beam irradiation, a silicone-based release agent provided on the polyethylene layer is used. It is estimated that the adhesiveness of the silicone is improved, and the amount of transfer of the silicone component to the adhesive surface in contact with the release agent-treated surface of the separator, which achieves the effect, is reduced, and as a result, the adhesive strength can be increased. There is.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location B32B 27/32 C 8115-4F

Claims (5)

[Claims] 1. A separator comprising a polyethylene-based release agent-treated layer provided on one or both sides of a polyethylene film crosslinked by electron beam irradiation. 2. A silicone-based release agent treatment layer is provided on the crosslinked polyethylene layer of a polyethylene-laminated paper obtained by laminating a polyethylene film crosslinked by electron beam irradiation on one or both sides of the paper. Characteristic separator. 3. An adhesive member comprising a polyethylene-based release agent-treated layer on one side of a polyethylene film crosslinked by electron beam irradiation and an adhesive layer on the other side. 4. A polyethylene laminated paper obtained by laminating a polyethylene film cross-linked by electron beam irradiation on one or both sides of paper, on the upper surface of a cross-linked polyethylene layer on one side,
An adhesive member having a silicone release agent treatment layer and an adhesive layer on the other surface. 5. The separator and the adhesive member according to claim 1, wherein the gel fraction of polyethylene is 5% by weight or more.