JP2009269374A - Adhesion film excellent in heat resistance and attachment nature - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a surface protective film which adheres to the surface of a metal sheet, a resin panel or the like, and especially an olefine based surface protective film which excels in heat resistance and attachment nature, and solve a trouble that float peeling from an adherend generates and thermal shrinking makes an adherend generate a warp when exposed to a high temperature environment. <P>SOLUTION: The surface protective film comprises at least: a substrate layer; and an adhesive layer wherein the substrate layer is an olefine based resin, and the adhesive layer comprises: a linear ethylene multi-block copolymer which is an olefin based elastomer having a melting point of 115°C or higher; and a tanδ peak temperature of a dynamic viscoelasticity of -10°C or lower. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a surface protective film adhered to the surface of a metal plate, a resin plate or the like, and particularly relates to an olefin-based surface protective film excellent in heat resistance and stickability.

Surface protective films are affixed to the surfaces of articles to prevent metal surfaces, resin plates, liquid crystal panels, etc. from being contaminated or scratched during transportation, storage or processing. It is the surface protection film used.
The surface protective film is composed of at least a base material layer and an adhesive layer, and the base material layer is not particularly limited, but from the viewpoint of strength and the like, an olefin resin such as polyethylene and polypropylene is preferably used. On the other hand, regarding the adhesive layer, acrylic adhesive, natural rubber adhesive, synthetic rubber adhesive, styrene resin, ethylene acetic acid, from the viewpoint of sticking to the surface and exfoliation after use Various things such as vinyl copolymer resin (EVA), ethylene-methyl methacrylate copolymer resin (EMMA), and olefin resin have been studied.

As a method for producing this surface protective film, (1) a base material layer is formed in advance and then the pressure-sensitive adhesive layer is coated, or (2) the base material layer and the pressure-sensitive adhesive layer are simultaneously produced by coextrusion. There is a method of forming a film.
In the method (1), since a minimum of two steps of forming a film to be a base material layer and a pressure-sensitive adhesive coating step are required, the manufacturing cost tends to increase. In addition, it is necessary to remove a large amount of solvent in the coating process of the pressure-sensitive adhesive layer, and there is a problem that the environmental load becomes high. Therefore, by coextrusion of (2), the film layer and the pressure-sensitive adhesive layer of the base material are A method for producing a self-adhesive surface protective film that is simultaneously extruded and laminated is generally used.

As a surface protective film by this coextrusion molding method, for example, a coextrusion in which a pressure sensitive adhesive layer made of a styrene elastomer, a tackifier and a styrene compatible resin is provided on one surface of a base material layer made of an olefinic thermoplastic resin. Laminated film (Patent Document 1) or coextruded laminated film provided with an adhesive layer made of an ethylene-α-olefin copolymer having a melting point of 115 to 125 ° C. and a density of 0.915 to 0.932 g / cm ³ (Patent document 2) etc. are mentioned.

By the way, depending on the application, the surface protective film may be subjected to post-processing such as drying and heat forming after being adhered to various resin plates, glass plates, metal plates, etc., and in a high temperature environment of 130 to 140 ° C. When exposed, the surface protective film made of the coextruded laminated film described in Patent Document 1 may cause the flaking off from the adherend, causing warpage of the adherend due to thermal contraction. There was a problem.
Moreover, although the surface protective film described in Patent Document 2 has excellent heat resistance, it is difficult to bond to an adherend and there is a problem in workability.
JP-A-8-253744 JP-A-8-323944

  The present invention is a surface protective film, particularly an olefin-based surface protective film, which is excellent in heat resistance and sticking property and solves the above problems, and is attached to the surface of a metal plate, a resin plate, etc. It is an issue to provide.

  In order to solve such problems, the present inventors have intensively studied, as a pressure-sensitive adhesive layer to be laminated on the base material layer using an olefin resin, using an olefin elastomer excellent in heat resistance and sticking property, Among the olefin elastomers, an olefin elastomer having a specific linear ethylene multi-block copolymer having a melting point of 115 ° C. or higher and a dynamic viscoelastic tan δ peak temperature of −10 ° C. or lower is used. When it was used as a pressure-sensitive adhesive resin in a pressure-sensitive adhesive layer, it was newly found out that a surface protective film having excellent heat resistance and excellent sticking property was obtained, and as a result, the present invention was completed.

  Thus, the present invention comprises at least a base material layer and a pressure-sensitive adhesive layer, the base material layer is an olefin resin, the pressure-sensitive adhesive layer is composed of a linear ethylene multiblock copolymer, and has a melting point of 115 ° C. or higher. It is a surface protective film characterized by being an olefin-based elastomer having a tan δ peak temperature of dynamic viscoelasticity of −10 ° C. or lower.

  More preferably, the present invention is a surface protective film produced by coextrusion molding.

According to the present invention, an olefin-based surface protective film excellent in heat resistance and sticking property is provided.
Since the surface protective film provided by the present invention is excellent in heat resistance, even when used in a severe heating environment, there is no occurrence of lifting off from the adherend, Due to the contraction, the adherend is not warped.
Furthermore, as a surface protection film, it protects the surface of these members in processes such as transportation and processing of metal plates, painted plates, automotive protective films, resin plates, decorative steel plates, glass, various liquid crystal members, liquid crystal panels, etc. When the surface protection function is finished, it has adhesiveness and adhesion that can be easily removed, and has the advantage that its applicability is extremely wide.

  As described above, the basic aspect of the present invention includes at least a base layer and an adhesive layer, the base layer is an olefin resin, and the adhesive layer is a linear ethylene multiblock copolymer. It is a surface protective film characterized by being an olefin elastomer having a melting point of 115 ° C. or higher and a dynamic viscoelastic tan δ peak temperature of −10 ° C. or lower.

  In the present invention, the olefin resin used as the base material layer is not particularly limited. For example, low density polyethylene (LDPE), medium density polyethylene (MDPE), high density polyethylene (HDPE), linear low density Examples thereof include ethylene homopolymers such as polyethylene (LDPE), ethylene-α olefin copolymers, and polyolefin-based thermoplastic resins such as polypropylene. These polyolefin-based resins may be used alone, Two or more may be used in combination.

  Various additives can be added to the resin component constituting these substrate layers within a range not impairing the effects of the present invention. Such additives include light stabilizers, ultraviolet absorbers, antioxidants, plasticizers, antistatic agents, flame retardants, inorganic fillers, pigments, lubricants and the like.

  On the other hand, as the resin used as the adhesive layer for the base material layer, an olefin elastomer resin having good adhesion to the base material layer is used. In the present invention, a linear ethylene multiblock copolymer is used. An olefin-based elastomer having a melting point of 115 ° C. or higher and a dynamic viscoelastic tan δ peak temperature of −10 ° C. or lower is used.

This linear ethylene multiblock copolymer is a copolymer resin of ethylene and ethylene or an α-olefin having about 3 to 20 carbon atoms, and is a linear ethylene multiblock copolymer containing two or more blocks or segments. is there.
In order to construct a linear ethylene multiblock copolymer, ethylene and ethylene or an α-olefin having about 3 to 20 carbon atoms are co-polymerized into a linear multiblock using a so-called shuttling agent. Polymerized and the ethylene content is preferably in the range of 65-100%. Moreover, it is preferable that molecular weight distribution (Mw / Mn) is less than 3.0. When the molecular weight distribution is less than 3.0, the low molecular weight linear multi-block copolymer does not bleed, so that contamination of the adherend can be prevented.

In the present invention, by using such a specific olefin-based elastomer resin, the heat resistance and sticking property of the target surface protective film are made favorable.
That is, the above-mentioned olefin-based elastomer resin, which is an ethylene multiblock copolymer used as the pressure-sensitive adhesive layer, has a melting point of 115 ° C. or higher, so that the heat resistance of the surface protective film is improved and tan δ of dynamic viscoelasticity is obtained. Since the peak value of is −10 ° C. or less, the sticking property of the surface protective film is made good.

The surface protective film of the present invention is a surface protective film comprising at least a base material layer and a pressure-sensitive adhesive layer, but the layer structure is only a two-layer structure, even if it has a layer structure higher than that. Although it is good, it is preferably a two-type two-layer structure composed of a base material layer and an adhesive layer.
In this case, the layer thickness is appropriately selected depending on the intended use and is not particularly limited. The thickness of the polyolefin-based thermoplastic resin as a base material layer is about 20 to 120 μm, and the thickness of the pressure-sensitive adhesive layer. Is preferably in the range of about 2 to 30 μm, more preferably 50 to 120 μm as the thickness of the surface protective film, and the base layer layer: adhesive layer thickness ratio is about 7: 3. preferable.
In addition, when the thickness of the film as the protective film thickness is too thin, the film physical properties tend to be lowered and easily broken, and when it is too thick, the flexibility is lowered and the film tends to be difficult to use.

  The surface protective film provided by the present invention can be manufactured by a manufacturing method used for forming a film using a general resin composition. Specifically, it can be molded by means of a general melt extrusion molding method (inflation method, T-die method).

  Hereinafter, the present invention will be described in detail by way of examples and comparative examples, but the present invention is not limited to these experimental examples.

Experimental Examples 1-4 / Comparative Examples 1-3 :
According to the formulation (parts by weight) shown in Table 1 below, a 70 μm thick surface protective film of 2 types and 2 layers was prepared with a T-die (the layer thickness ratio of 2 types and 2 layers is: base material layer: adhesive layer = 7 : 3).
About the obtained surface protection film, heat resistance, sticking property, and adhesive force were evaluated, and those results were shown together in the table | surface.

The notes in the table are as follows.
* 1: Polypropylene WINTEC WFX6 (manufactured by Nippon Polypro Co., Ltd.)
* 2: Olefin elastomer 1 INFUSE D9107 (manufactured by Dow Chemical Japan Co., Ltd.) Melting point 121 ° C., tan δ peak temperature −46 ° C.
* 3: Olefin elastomer 2 INFUSE D9500 (manufactured by Dow Chemical Japan Co., Ltd.) Melting point 122 ° C., tan δ peak temperature −46 ° C.
* 4: Olefin-based elastomer 3 INFUSE D9507 (manufactured by Dow Chemical Japan Co., Ltd.) Melting point 119 ° C., tan δ peak temperature −44 ° C.
* 5: Olefin-based elastomer 4 INFUSE D9807 (manufactured by Dow Chemical Japan Co., Ltd.) Melting point 118 ° C., tan δ peak temperature −45 ° C.
* 6: Olefin elastomer 5 Melting point: 84 ° C., tan δ peak temperature: −15 ° C. (Mitsui DuPont Polychemical Co., Ltd.)
* 7: Olefin elastomer 6 Melting point 103 ° C, tan δ peak temperature -18 ° C (manufactured by Nippon Polyethylene Co., Ltd.)
* 8: Olefin elastomer 7 Melting point 135 ° C, tan δ peak temperature 2 ° C (manufactured by Sumitomo Chemical Co., Ltd.)

* 9: Heat resistance test The heat resistance test was conducted as follows.
[Method]
The surface protective film prepared above was attached to a 5 cm × 5 cm glass plate using a pressure bonding device. The surface of the pressure roller is covered with a rubber layer having a spring hardness of 80 ± 5 Hs and a thickness of about 6 mm as defined in JIS K6301 (vulcanized rubber physical test method). The width is about 45 mm, the diameter is about 83 mm, and the mass is 2000. The thing of +/- 50g was used.
After pasting, the test piece was put into an oven at 120 ° C., and the state of the protective film after 45 minutes was visually observed.

[Evaluation criteria]
○: Appearance of the film is good and no film lift is confirmed. There is no adhesion of the adhesive layer to the glass plate when the film is peeled off.
X: Partial shrinkage is confirmed in the external appearance of the film, or some floating of the film is confirmed. When the film is peeled off, the adhesive residue of the adhesive layer is confirmed on the glass plate.

* 10: Stickability The stickability test was performed as follows.
Under low temperature conditions (5 ° C.), the pastability of the test piece to the acrylic plate was confirmed.
○: Attaching to the acrylic plate smoothly without any problem.
X: Affixing to an acrylic board is difficult.

* 11: Adhesive strength The adhesive strength test was conducted as follows.
A SUS304 plate was used for the test. The test plate was used after thoroughly cleaning with a dry cloth to remove surface dirt (oil, dust, powder, etc.).
A test piece having a width of 25 mm and a length of 100 mm in the axial direction of the film was used. The test piece is affixed by using a manual pressure roll, and the pressure roller is a rubber layer having a spring hardness of 80 ± 5 Hs and a thickness of about 6 mm as defined in JIS K6301 (vulcanized rubber physical test method). A coated one having a width of about 45 mm, a diameter of about 83 mm, and a mass of 2000 ± 50 g was used.
After the pasted test piece was allowed to stand for 30 minutes, the peel force when peeled from the test piece in the horizontal direction (180 degree peel) at a rate of 300 mm / min was measured 6 times, and the average value was taken as the adhesive strength.

  As can be seen from the results shown in the table, the surface protective film of the present invention was excellent in heat resistance and also had good adhesion at low temperatures.

As described above, the present invention provides a surface protective film, particularly an olefin-based surface protective film, which is excellent in heat resistance and sticking property and is attached to the surface of a metal plate, a resin plate or the like.
Since the surface protective film provided by the present invention is excellent in heat resistance, even when used in a severe heating environment, there is no occurrence of lifting off from the adherend, and heat shrinkage. In the process of transporting and processing metal plates, painted plates, automotive protective films, resin plates, decorative steel plates, glass, various liquid crystal members, liquid crystal panels, etc. without causing warping of the adherend Since the surface of these members can be protected, its applicability is extremely wide.

Claims (2)

  It consists of at least a base material layer and a pressure-sensitive adhesive layer, the base material layer is an olefin resin, the pressure-sensitive adhesive layer is made of a linear ethylene multiblock copolymer, its melting point is 115 ° C. or more, and dynamic viscoelastic tan δ A surface protective film characterized by being an olefin-based elastomer having a peak temperature of −10 ° C. or lower.   The surface protective film according to claim 1, wherein the surface protective film is manufactured by coextrusion molding.