KR101740193B1 - Resin Composition for easy peelable film and easy peelable film using the same - Google Patents

Abstract

The present invention relates to a resin composition for easy-peel films and easy-peel films using the same, and more specifically, to a resin composition for easy-peel films for sealing films which comprises polypropylene, polyethylene, ethylene propylene block copolymer, and zeolite; and to a resin composition for an easy-peel film for pouch films which comprises polypropylene, polyethylene, ethylene propylene block copolymer, zeolite, and -olefin based metallocene resin. Also, the present invention relates to easy-peel films for sealing films and pouch films which are prepared by co-extruding a base resin comprising the resin compositions for easy-peel films for sealing films and pouch films; and a linear low-density polyethylene resin so as to form an upper layer as a linear low-density polyethylene layer and a lower layer as a base resin layer.

Description

Technical Field [0001] The present invention relates to a resin composition for an ezifilm film, and an ezifilm film using the resin composition. [0002]

The present invention relates to a resin composition for use in an easy paper film and an easy paper film using the same, which is a high-performance packaging material used for food packaging, having excellent sealing properties and easily peeled off. In particular, the present invention relates to a resin composition for use in an easy paper film and an easy paper film using the resin composition, which is excellent in pressure resistance and peeling properties when used in a food packaging pouch or the like, and particularly capable of heat sealing at a low temperature of 110 to 130 ° C. The present invention also relates to a resin composition for use in an easy paper film and an easy paper film using the same, which is excellent in pressure-resistant strength and peeling property in melt bonding with a polypropylene container.

Food packaging is the process of preserving the quality of food during the transportation, storage and distribution of food, hygienically maintaining safety, rationalizing production, distribution and transportation, increasing the value of the product, Refers to a technique of using a container to treat food appropriately or to a state in which it is applied.

Food packaging can be classified into primary to tertiary packaging depending on the level of packaging. In other words, the primary package is a package in direct contact with the received product, such as a can, a glass bottle, a pouch, and a plastic container. A secondary package refers to packing a plurality of primary packages, such as a corrugated cardboard box, in a unit. The tertiary package means a plurality of secondary packages, for example, a pallet wrapped with a shrink film in which many corrugated boxes are stacked.

Among the primary packaging methods, pouches are pouches made by sealing one side of a tubular container with flexible packaging material, or pouches of other shapes. In food packaging, pouch packaging is widely used. Particularly, the pouch packaging is lightweight, inexpensive, easy to handle, and widely used as an alternative packaging such as a glass bottle or a hard plastic container. Pouch packing materials include paper, cellophane, aluminum foil, plastic film, evaporated film, cloth, synthetic paper and composite materials.

Among the primary packaging methods, a plastic container refers to a plastic container containing or enclosing food or additives. The use of synthetic resin (84.7%), metal (8.2%), glass (5.0%), paper (1.1%) and rubber (0.9% I am the most used. Polyethylene (46.3%), polypropylene (35.1%), polyethylene terephthalate (15.4%) and polystyrene (1.4%) were the synthetic resins used.

In recent years, along with the advancement of the industrial structure, along with the development of the instant food industry, the packaging concept has been particularly emphasized in aspects such as unit packaging and ease of opening. It is an easy peelable film that emerged in response to this trend.

The above-mentioned ejifilm film is excellent in sealing property and easy paper property when used as a film used for pouches for food packaging, that is, as a pouch film, and should be capable of heat sealing at a low temperature. Also, in order to seal the polypropylene container for food packaging, the film to be melted and bonded, that is, the sealing film, should also have excellent sealing property and easy paper property. If the peeling strength of the sealing film is low, the contents may leak during the product circulation, which adversely affects distribution and sales. On the contrary, if the peeling strength is strong, the leakage of contents can be avoided, but the convenience of use is deteriorated because the consumer can not easily peel off. Likewise, the pouch film must also have adequate peel strength to enhance product distribution and user convenience.

Generally, the adhesive film is composed of polymers having different compatibility of polymer blend, and it exhibits the adhesive property with good adhesive property due to the balance of the compatibility between the substrate and the film during the heat fusion to the adhesive substrate, Technology is the selection of polymers with different compatibility, the blend ratio between them, and the morphology control technique of continuous phase and dispersed phase. The conventional adhesive film has a very weak peeling strength at the interface depending on the heat bonding processing temperature condition, In addition, there is a structural problem that the price of the resin used is very high, there is a limitation in controlling the peel strength of the adhesive film, and the strength of the pressure resistance is weak.

Accordingly, the present invention relates to an adhesive film resin composition for a pouch film which is excellent in sealing properties and an easy-to-handle property when used as a film for producing a food packaging pouch or the like, that is, a pouch film, And to provide an ink-jet film for a pouch film using the same. The present invention also provides an adhesive film resin composition for sealing a polypropylene container, that is, an adhesive film resin composition for a sealing film having improved sealing properties and excellent ease of handling when used as a sealing film, and an adhesive film for a sealing film using the same It has its purpose.

 Prior art literature

(Patent Document 1) KR10-2008-0104674 A

(Patent Document 2) KR10-2001-0095476 A

(Patent Document 3) KR10-2001-0057618 A

(Patent Document 4) US5407751 A

Disclosure of the Invention An object of the present invention is to provide an adhesive film resin composition excellent in sealing properties, that is, sealing strength, pressure strength, peeling strength, and stiffness, In particular, it is an object of the present invention to provide a resin composition for an open-cell film which is characterized by being heat-sealed at a low temperature, that is, 110 to 130 ° C when used as a pouch film, and an open-cell film using the same.

When used as a pouch film, the EZIFIL film of the present invention has an intrinsic pressure strength of 1.0 to 2.5 kg / cm ² and a peel strength of 0.2 to 1.2 kg / 15 mm, It can be bonded by heat sealing. In addition, when used as a sealing film, it has a pressure resistance strength of 1.0 to 2.0 kg / cm < ² > and peel strength of 0.5 to 1.5 kg / 15 mm for easy peeling, And an ejifilm film using the same.

To this end, the resin composition for sealing film for a sealing film according to the present invention comprises 30 to 60 parts by weight of a polypropylene having a melt index of 4.0 to 8.0 g / 10 min when a load of 2.16 kg is applied at 230 ° C .; 10 to 40 parts by weight of polyethylene having a melt index of 1.0 to 4.0 g / 10 min when a load of 2.16 kg is applied at 190 占 폚; 10 to 40 parts by weight of an ethylene propylene block copolymer; 1 to 2 parts by weight of zeolite.

In addition, the resin composition for an ejifilm film for a pouch film according to the present invention further comprises 10 to 30 parts by weight of an alpha -olefin-based metallocene resin in the ejaculate film resin composition for a sealing film.

The resin composition for the sealing film and the resin film for the pouch film may further contain at least one of an antifogging agent and an antifungal agent.

The present invention also relates to an ezifilm film comprising a base resin composed of an ezifilm resin composition for a sealing film or a pouch film; The linear low density polyethylene resin is co-extruded together, the upper layer is formed of the linear low density polyethylene layer, and the lower layer is composed of the base resin layer.

The flexible film according to the present invention is excellent in resistance to pressure when used as a film for use in a pouch for food packaging, that is, as a pouch film, and has excellent ejaculate properties. Also, since heat sealing is possible at a low temperature, that is, at 110 to 130 ° C, productivity and efficiency of work can be greatly improved in food packaging. In addition, the ejifilm film of the present invention has excellent pressure-resistant strength and excellent ejaculate property when it is used as a sealing film for melt-adhering a polypropylene container for food packaging. In addition, the ejifilm film of the present invention is easily peeled to maximize user convenience, and has an effect of safely accepting food.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view of a section before and after peeling of an ejifilm film of the present invention. Fig. .
Fig. 2 is an FT-IR spectrum after peeling off the release film of the present invention. Fig.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed exemplary embodiments, but is capable of other various forms of implementation. The following examples are intended to be illustrative of the present invention, Is provided to fully inform the user. Also, for convenience of explanation, the components may be exaggerated or reduced in size. In the figures, for example, variations in the shape shown may be expected, depending on manufacturing techniques and / or tolerances. Therefore, the experimental examples of the present invention should not be construed as limited to the specific shapes of the regions shown in this specification, and should include, for example, changes in the shape resulting from manufacturing.

The ezifilm film of the present invention can be used as a sealing film, that is, a sealing film, for sealing a pouch film, that is, a pouch film and a polypropylene container for packaging foods. When used as a pouch film, the ejifilm film of the present invention is melt-adhered at a pressure strength of 1.0 to 2.5 kg / cm ² , a peel strength of 0.2 to 1.2 kg / 15 mm and a low temperature, that is, 110 to 130 ° C., ) Is possible. When used as a sealing film, it has a pressure strength of 1.0 to 2.0 kg / cm ² and a peel strength of 0.5 to 1.5 kg / 15 mm so as to easily peel off. Accordingly, it is an object of the present invention to provide a resin composition for use in an inkjet film and an inkjet film using the inkjet ink composition,

(Base resin composition)

The film used as the sealing film of the polypropylene container according to the present invention, that is, the adhesive resin composition for a sealing film, is a polypropylene having a melt index of 4.0 to 8.0 g / 10 min when a load of 2.16 kg is applied at 230 DEG C, Wealth; 10 to 40 parts by weight of polyethylene having a melt index of 1.0 to 4.0 g / 10 min when a load of 2.16 kg is applied at 190 占 폚; 10 to 40 parts by weight of ethylene propylene block copolymer and 1 to 2 parts by weight of zeolite.

The ezifilm film resin composition for a sealing film of the present invention will be described in detail as follows.

The emulsion film resin composition for a sealing film of the present invention contains 30 to 60 parts by weight of polypropylene (hereinafter referred to as PP) having a melt index of 4.0 to 8.0 g / 10 min when a load of 2.16 kg is applied at 230 ° C. If the content of PP is less than 30 parts by weight, the peeling strength of the adhesive film is too weak, so that the envelope may be easily broken by external pressure when used for sealing the PP container. If the content is more than 60 parts by weight, The strength can not be secured.

The emulsion film resin composition for a sealing film of the present invention contains 10 to 40 parts by weight of polyethylene (PE) having a melt index of 1.0 to 4.0 g / 10 min when a load of 2.16 kg is applied at 190 캜. When the content of PE is less than 10 parts by weight, the peel strength is strong and the film has poor releasability. When the content of PE is more than 40 parts by weight, peeling strength is weak and it is difficult to apply it as a food packaging material.

Also, the PP and PE have the best transparency, crystallinity, thermal bonding and stretch properties of the ejifilm film in the range of the melt index as described above, and workability in the production of the ejipil films is also excellent.

The ethylene-propylene block copolymer (EPBC) is contained in an amount of 10 to 40 parts by weight in the elastomer film resin composition for a sealing film of the present invention. The EPBC in the ejaculate film resin composition for a sealing film serves to reduce the interfacial energy of the blend of PP and PE. In addition, when blending PP and PE, it controls the size of the dispersed phase and enhances the stability while uniformly dispersing. The mixing amount of the EPBC is suitably 10 to 40 parts by weight. In the resin composition for an ejifilm film of the present invention, EPBC is blended with PP and PE in the above-mentioned composition ratio to reduce the size of the dispersed phase of PP and PE. As a result, an interface between the linear low density polyethylene layer and the base resin layer And it is known that it plays a role of increasing the adhesive force to cause peeling in the base resin layer.

The ejaculate film resin composition for a sealing film of the present invention comprises 1 to 2 parts by weight of zeolite. Zeolite acts as an anti-blocking agent in the production of inflation films. That is, the zeolite in the production of the inflation film prevents the sticky film from sticking to the inside of the ezifilm film so that the food packaging operation can be smoothly performed. Therefore, in order to perform the above-mentioned function, the zeolite should not contain a heavy metal, the particle shape should be spherical, and the average particle size is preferably 3 μm or less. When the zeolite is contained in an amount of 1 part by weight or less, workability is deteriorated due to sticking to each other in the production of an ejifilm film, and when the amount is more than 2 parts by weight, the slip property or formability of the ejifilm film becomes poor.

In addition, an antifogging agent or antifungal agent may be appropriately added to the adhesive film resin composition for a sealing film for use as a food packaging material. The anti-fogging agent is an additive which forms a thin anti-fogging film on the surface of an Ezifilm film to prevent water droplets from forming, forms a thin water film to maintain the freshness of the contents, and increases the transparency so that the contents are well visible. The anti-fogging agent may be one which is allowed to be used in food packaging materials, and may be used by adding an appropriate amount of a surfactant such as polyglycerol esters of fatty acid. The fungicide is an additive which is used for the purpose of inhibiting the growth of the fungi for long-term preservation of the food. An appropriate amount of a known fungicide can be added to the composition.

As described above, the resin composition for an encapsulating film of the present invention comprises 30 to 60 parts by weight of PP having a melt index of 4.0 to 8.0 g / 10 min when a load of 2.16 kg is applied at 230 ° C .; 10 to 40 parts by weight of PE having a melt index of 1.0 to 4.0 g / 10 min when a load of 2.16 kg is applied at 190 占 폚; 10 to 40 parts by weight of EPBC and 1 to 2 parts by weight of zeolite.

Also, an ezifilm film resin composition for a film for producing a food pouch of the present invention, that is, an ezifilm film resin composition for a pouch film, comprises 10 to 30 parts by weight of an alpha -olefinic metallocene resin in the ezifilm film resin composition for a sealing film . The α-olefin-based metallocene resin is produced on the basis of a metallocene catalyst technique and contains a much narrower molecular weight distribution and a small amount of a low molecular weight substance than the polyolefin produced by the Ziegler-Natta agent, It has superior mechanical and optical properties. Especially, the? -Olefin-based metallocene resin can be made directly in the reactor so as to have a high melt index by reacting sensitively to hydrogen controlling the solubility index. Further, since the? -Olefin-based metallocene resin is polymerized using a metallocene catalyst, it has a melting point lower than that of a general polyolefin resin due to a very limited amount of three-dimensional irregularities. Because of this low melting point and rigidity of general homopolymer, it is possible to process at low temperature . The α-olefin-based metallocene resin is contained in the composition ratio as described above to lower the melting temperature of the release film for a pouch film, thereby enabling heat sealing at a low temperature, that is, 110 to 130 ° C.

The adhesive film resin composition for a sealing film or a pouch film was melt-kneaded in the above-mentioned composition into pellets, dried and used as a base resin.

 ( Ezipil  Film production)

The ezifilm film of the present invention comprises: a base resin composed of an ezifilm film resin composition for a sealing film or a pouch film; LLDPE resin; The upper layer is formed of an LLDPE layer, and the lower layer is formed of the base resin layer. In addition, in the flexible film, the LLDPE layer may be formed of one or more layers. The LLDPE used in this case is characterized by a density of 0.925 g / cm ³ .

Hereinafter, the process for producing the ejifilm film of the present invention will be described in detail. Since the manufacturing process of the above-mentioned easy film is similar to that of the sealing film and the pouch film, the manufacturing process of the easy film for a sealing film will be described.

In order to produce an ejipil film for a sealing film of the present invention, an ejifilm film resin composition for a sealing film is first prepared. That is, 30 to 60 parts by weight of PP having a melt index of 4.0 to 8.0 g / 10 min when a load of 2.16 kg is applied at 230 占 폚; 10 to 40 parts by weight of PE having a melt index of 1.0 to 4.0 g / 10 min when a load of 2.16 kg is applied at 190 占 폚; 10 to 40 parts by weight of EPBC and 1 to 2 parts by weight of zeolite are melted and kneaded into pellets.

At this time, the antifogging film resin composition for a sealing film may contain an antifogging agent or an antifungal agent in an appropriate amount. In the present invention, a twin-screw extruder (inner diameter = 40 mm, L / D = 42, temperature: 240 ° C) was used for melt-kneading the resin composition for sealing films for the sealing film, and after melting and kneading, pellets were obtained from the pelletizer And dried in a dehumidifying dryer at 90 캜 for 6 hours. The dried film resin composition for a sealing film as described above was used as a base resin.

Then, the base resin and the LLDPE are put into an appropriate amount of a hopper, and an emulsion film for a sealing film is formed on the basis of an ordinary film forming apparatus and a molding method by extrusion processing. This process is performed by inflation extrusion by circular- extrusion molding by-die, and the like. The adhesive film for a sealing film produced by co-extrusion as described above is produced to a thickness of 30 to 60 탆. At this time, as described above, the upper part of the release film for the sealing film is formed with the LLDPE layer and the lower part is formed with the base resin layer, and the LLDPE layer can be formed with more than one layer.

As described above, the above-mentioned ejifilm film for a pouch film of the present invention further comprises 10 to 30 parts by weight of an alpha -olefin-based metallocene resin in 100 parts by weight of the ejifilm film resin composition for a sealing film. In the present invention, LUCENE ( TM) LF100 (hereinafter referred to as me-PE) which is a metallocene polyethylene produced by LG Chemical Co., Ltd. was used as the ? -Olefin -based metallocene resin. As described above, an elastomer film composition for a pouch film, in which 10 to 30 parts by weight of m-PE was melt-kneaded in 100 parts by weight of an elastomer film resin composition for a sealing film, was co-extruded with LLDPE as a base resin, . The manufacturing process of the release film for the pouch film is the same as the production process of the release film for the sealing film.

In the present invention, the adhesive film for a sealing film manufactured as described above is used so that the base resin layer becomes an adhesive surface when used for food packaging. That is, when a plastic container such as a PP container is sealed using an ejifilm film for a sealing film of the present invention, the base resin layer located under the release film for the sealing film is melted and bonded to the PP container. Also, the base resin layer is melted when used for a pouch film and used to form a pouch after being bonded to each other.

( Ezipil  Measurement of physical properties of film)

In the present invention, the pressure-resistant strength, peel strength and heat resistance of the ejifilm film were evaluated by the following methods.

- Pressure strength measurement

The strength of the pressure-resistant adhesive paper for a pouch film was measured using a pouch having a size of 10 cm x 10 cm and having four sides thermally fused. That is, air is injected into the thermally fused pouch at 90 vol% using a micro needle, and the portion where the micro needle is injected is sealed with OPP tape. The sealed pouch was compressed in an automatic burst strength tester to a pressure of 5 kg / cm < ² > at an internal pressure, and the strength when the sealing pouch bursts was measured as the pressure resistance strength .

The pressure strength of the adhesive film for a sealing film was measured using a disposable food packaging container made of PP having a size of 125 mm x 125 mm x 30 mm. That is, the disposable food packaging container of the PP material was thermally fused with the sealing film for sealing film of the present invention and sealed, and then air was injected at 90 vol% using a micro needle. Then, the portion where the micro needle was injected is sealed with OPP tape. Disposable food packaging container made of PP sealed with air was sealed in an Automatic Bursting Strength Tester at a pressure of 5 kg / cm < ² > The strength at the time of bursting was measured by the pressure resistance strength.

After the internal pressure strength was measured ten times, the average value of the remaining measured values except for the minimum and maximum values was recorded as the pressure resistance strength.

If the pressure resistance of the film is too strong, it will not be easily opened when used, and if it is too weak, it may rupture when storing food. Therefore, the release film for a pouch film is 1.0 ~ 2.5 kg / cm < ² > It is appropriate to have an internal strength of the range. In addition, the release film for a sealing film had a density of 1.0 to 2.0 kg / cm < ² > It is appropriate to have an internal strength of the range.

- Peel strength measurement

Peel strength was measured by the following two methods. First, the peel strength of the sealing film was measured by peeling the releasing film at a tensile speed of 50 mm / min in a universal testing machine (UTM) after thermally fusing the emulsion film for a sealing film of the present invention with a PP container at 160 to 180 ° C The strength was measured.

The peel strength of the pouch film was measured by melting and bonding the pouch film for a pouch film of the present invention having a size of 25 mm x 10 mm against each other at 110 to 130 DEG C and then cutting the pouch film into a size of 15 mm x 10 mm, Direction and a tensile speed of 50 mm / min.

The peel strength was measured ten times, and the average value of the remaining measured values except for the minimum and maximum values was measured as the peel strength.

If the peel strength of the ejipil film is too strong, the film may be stretched or torn and measurement may be impossible. Generally, peel strength which can be easily opened by an adult is 2.0 kg / 15 mm or less, 0.5 to 1.5 kg / 15 mm is suitable for a sealing film and 0.2 to 1.2 kg / 15 mm for a pouch film Mm is appropriate.

- Heat resistance

The heat resistance is obtained by immersing the ejifilm film of the present invention in water and heating it at 100 DEG C for 20 minutes. And whether thermal deformation occurred was visually confirmed and evaluated.

( Example  1 to 7)

The present invention may be more specifically understood by reference to the following examples, which should not be construed as limiting the scope of the invention, but for illustrative purposes.

Hereinafter, the ejifilm film of the present invention will be described in detail with reference to Tables 1 and 2. Table 1 shows the composition ratios of the sealing film and the pouch film-based adhesive resin film composition prepared in different composition ratios in the present invention. As shown in Examples 1 to 4 in Table 1, the ejaculate film resin composition for a sealing film of the present invention is composed of PP, PE, EPBC and zeolite.

The composition ratio of the base resin composition of the present invention division Base resin composition (parts by weight) Remarks PP PE EPBC Zeolite m-PE Example 1 30 40 20 One -
Sealing film Example 2 60 10 30 2 - Example 3 50 40 10 One - Example 4 50 30 40 2 - Example 5 The Ezifilm film resin composition 100 of Example 2 10
Pouch film Example 6 20 Example 7 30

In addition, the present invention is also directed to an e-paper film resin composition for a pouch film, which is produced by further adding m-PE to an effervescent film resin composition for a sealing film. In Examples 5 to 7 of the present invention, 10 to 30 parts by weight of m-PE was added to 100 parts by weight of the resin composition for sealing film for a sealing film described in Example 2 to make an epoxy resin film composition for a pouch film.

Table 2 shows the physical properties of the ejifilm film of the present invention, that is, the measurement results of the pressure resistance strength, the peel strength and the heat resistance.

The physical properties of the inventive film division Properties Remarks Pressure resistance strength Peel strength of sealing film Peel strength of pouch film Heat resistance 160 ° C 170 ℃ 180 DEG C 110 ° C 120 DEG C 130 ℃ Example 1 1.0 0.6 0.7 0.7 - - - ◎
Sealing film Example 2 1.2 0.8 0.9 0.9 - - - ◎ Example 3 1.5 1.2 1.2 1.3 - - - ◎ Example 4 2.0 1.0 1.4 1.5 - - - ◎ Example 5 1.0 - - - 0.3 0.4 0.4 ◎
Pouch film
Example 6 2.2 - - - 0.7 0.7 0.8 ◎ Example 7 2.5 - - - 1.0 1.1 1.1 ◎ ⊚: Excellent ◯: Good △: Normal ×: Bad

First, referring to Table 1, an Ezifilm film resin composition was obtained according to the composition ratio of each component as described in Examples 1 to 7 in Table 1 above. First, PP, PE, EPBC and zeolite were melted and kneaded at the composition ratios as described in Examples 1 to 4 in Table 1 to prepare an emulsion film resin composition for a sealing film. 10 to 30 parts by weight of m-PE was added to 100 parts by weight of the emulsion film resin composition for a sealing film of Example 2 as described in Examples 5 to 7 of Table 1, and then melt-kneaded, To prepare a resin composition for a film.

Thereafter, the above-mentioned ejaculate film resin composition for a sealing film and for a pouch film was melt-kneaded and used as a base resin. Thereafter, the base resin was dried and then co-extruded with LLDPE to prepare an Ezifilm film. At this time, the co-extrusion can be carried out by suitably adopting inflation extrusion molding by circular dies or extrusion molding by T-die, and the thickness of the produced flexible film is made 30 to 60 탆. An upper portion of the co-extruded handy film is formed with an LLDPE layer, and a base resin layer composed of the sealing film and the release film resin composition for a pouch film is formed on the lower portion.

In the base resin compositions of Examples 1 to 7, the weights of the respective raw materials were measured, and they were mixed and melt-kneaded by a twin screw. The twin-screw extruder was co-rotating, with a screw diameter of 30 mm and an L / D ratio of 36. The screw speed was maintained at 200 rpm, the barrel temperature was maintained at 160 to 190 DEG C, the die temperature was maintained at 180 DEG C, and the extrusion rate was adjusted to 20 kg / hr. The processed composition was cut into pellets having a diameter of 2 mm or less and dried at 90 ° C before use.

Table 2 shows the physical properties, that is, the pressure resistance strength, peel strength and heat resistance, of the seal film and the release film for a pouch film produced at the composition ratios described in the above Examples 1 to 7.

As can be seen from Table 2, the pressure-proof strength of the sealing film and the pouch film for a pouch film using the resin composition for an ejifilm film of the present invention was measured to have a value within a range of 1.0 to 2.5 kg / cm ² . That is, it is confirmed that the pressure resistance strength of the ink film for a pouch film has a value within a range of 1.0 to 2.5 kg / cm ² , and the pressure resistance strength of the ink film for a sealing film has a value within a range of 1.0 to 2.0 kg / cm ² .

Further, the peel strength of the sealing film and the peeling strength of the pouch film were found to have values within the range of 0.2 to 1.5 kg / 15 mm as a whole. That is, the peel strength of the release film for a pouch film has a value within a range of 0.2 to 1.2 kg / cm ² , and the peel strength of the release film for a sealing film has a value within a range of 0.5 to 1.5 kg / cm ² .

From this, it can be confirmed that the sealing film for the sealing film of the present invention and the releasing film for pouch film have appropriate physical properties for the grippable film in both strength and peeling strength.

The temperatures in Table 2 indicate the temperature at the time of melt bonding of the adhesive film to measure the strength of pressure resistance and the peel strength. That is, in the case of a sealing film, it refers to the temperature at which the adhesive film for a sealing film of the present invention and the PP container are bonded together by heat-sealing. And in the case of the pouch film, the temperature at which the pouch film is formed by melt-adhering the pouch film for pouch film of the present invention.

As shown in Table 2, the peel strength of the pouch film exhibits excellent pressure strength and peel strength even when heat sealed at a low temperature, that is, at 110 to 130 ° C. Therefore, it can be confirmed that the inventive film for pouch film has excellent heat sealing property at the low temperature, that is, at 110 to 130 ° C. It is also understood that the peel strength of the sealing film also exhibits excellent pressure strength and peel strength at a sealing temperature range of 160 to 180 占 폚.

As can be seen in Examples 1 to 7, it can be confirmed that the inventive release film for a pouch film is capable of heat sealing at a low temperature, that is, at 110 to 130 ° C, and has excellent characteristics of pressure resistance and peel strength. It has also been confirmed that the ejipil film for a sealing film of the present invention also has characteristics of excellent pressure resistance and peel strength.

And Fig. 1 is a schematic view of a cross section of an ejifilm film produced according to the present invention. Referring to FIG. 1, an EF film according to the present invention has an LLDPE layer formed on an upper portion thereof, and a base resin layer composed of an EF film resin composition for a sealing film or a pouch film is formed thereunder. The base resin layer in which the m-PE is further included is formed in the release film for a pouch film of the present invention. The upper LLDPE layer may be formed of one or more layers depending on the use of the ejifilm film.

Also, as shown in Fig. 1, the ejipil film for a sealing film of the present invention is characterized in that the base resin layer is peeled off from the PP container upon peeling after heat sealing. That is, as discussed above, EPBC blended with PP and PE will reduce the size of the dispersed phase of the PP and PE. Accordingly, when the ejifilm film of the present invention is used for sealing a plastic container, the adhesive force between the base resin layer and the plastic container is greater than the adhesive force between the base resin layer and the LLDPE layer. Therefore, when the adhesive film is peeled from the plastic container, peeling occurs in the base resin layer.

Further, when the pouch is formed by using the pouch film for pouch film of the present invention, the base resin layers are melt-bonded to each other. The adhesion force between the base resin layers in the pouch formed at this time is larger than the adhesion force between the base resin layer and the LLDPE layer. Therefore, peeling occurs in the base resin layer even when the pouch is peeled off for the same reason as described above.

Also, when peeling off the base resin layer of the present invention, peeling does not occur at the adjacent portion of the bonding surface between the base resin layer and the plastic container, as shown in Fig. 1, and the peeling between the base resin layer and the LLDPE layer Peeling occurs at the site. This is thought to be due to the effect of the EPBC contained in the base resin layer, because the EPBC increases the mutual bonding force with the PP, but decreases the mutual bonding force with the PE and LLDPE.

For the same reasons as above, the sealing film and the pouch film for the pouch film of the present invention may be used as a sealing material for a food packaging container, or when a pouch is used as a pouch, It can be seen that peeling occurs in the stratum.

Fig. 2 shows the FT-IR spectrum of the adhesive film for a sealing film of the present invention after peeling off the upper and lower peeled surfaces as shown in Fig. As shown in FIG. 2, it can be seen that the FT-IR spectra of the peeled upper and lower flexible films from the base resin layer exhibit the same type of spectrum. That is, the upper film and the lower film that are peeled off from the release film of the sealing film of the present invention are composed of the same composition, namely, LLDPE, PP, PE, EPBC and zeolite, It can be confirmed once again that the peeling occurs.

Also, the upper and lower films of the pouch film for pouch film of the present invention have the same composition when peeled off. That is, the peeled upper and lower films consist of LLDPE, PP, PE, EPBC, zeolite and m-PE. Therefore, in the pouch film of the present invention, the upper film and the lower film exhibit the same FT-IR spectrum upon peeling.

As described above, the adhesive film resin composition for a sealing film and the pouch film of the present invention and the adhesive film for a sealing film and the pouch film produced therefrom of the present invention are excellent in pressure resistance strength and peeling strength, thereby enhancing user convenience. In particular, the release film for pouch films can be heat-sealed at a low temperature, that is, at 110 to 130 ° C, thereby greatly improving the productivity and the work efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

Claims (10)

30 to 60 parts by weight of a polypropylene having a melt index of 4.0 to 8.0 g / 10 min when a load of 2.16 kg is applied at a temperature of 230 占 폚;
10 to 40 parts by weight of polyethylene having a melt index of 1.0 to 4.0 g / 10 min when a load of 2.16 kg is applied at a temperature of 190 占 폚;
10 to 40 parts by weight of an ethylene propylene block copolymer; And
Zeolite and 1 to 2 parts by weight of a zeolite;
A linear low density polyethylene resin is co-extruded, the upper layer is formed of the linear low density polyethylene layer, the lower layer is formed of the base resin layer,
And peeling from the base resin layer upon peeling off.
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The method according to claim 1,
Wherein the linear low density polyethylene co-extruded together with the base resin has a density of 0.925 g / cm < ³ >

The method according to claim 1,
Wherein the linear low density polyethylene layer is composed of at least one layer.
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30 to 60 parts by weight of a polypropylene having a melt index of 4.0 to 8.0 g / 10 min when a load of 2.16 kg is applied at a temperature of 230 占 폚;
10 to 40 parts by weight of polyethylene having a melt index of 1.0 to 4.0 g / 10 min when a load of 2.16 kg is applied at a temperature of 190 占 폚;
10 to 40 parts by weight of an ethylene propylene block copolymer;
1 to 2 parts by weight of zeolite; And
and 10 to 30 parts by weight of an? -olefin-based metallocene resin; and a base resin which is an elastomer film composition for a pouch film,
A linear low density polyethylene resin is co-extruded, the upper layer is formed of the linear low density polyethylene layer, the lower layer is formed of the base resin layer,
And peeling off from the base resin layer upon peeling off.
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The method of claim 6,
Wherein the linear low density polyethylene co-extruded together with the base resin has a density of 0.925 g / cm < ³ >

The method of claim 6,
Wherein said linear low density polyethylene layer is composed of at least one layer.

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