KR19980048713A - Microwave Composite Cardboard - Google Patents

Abstract

Microwave susceptible film laminated paperboard of the present invention is a composite board for microwave oven in which an aluminum thin film and a polyester film are sequentially laminated on a paper board, the thickness of 15 ~ 30㎛ It is characterized by the fact that the heating element in which the aluminum is vacuum-deposited to a thickness of 50 to 70Å and the paper board are laminated with an aqueous ethylene vinyl acetate-based adhesive on an ester (PET) film. Forming a heating element by forming an aluminum thin film by vacuum deposition; It is produced by the step of laminating by applying an aqueous EVA-based adhesive (solid content 50%) to at least one of the aluminum thin film surface of the heating element and one side of the paper cardboard.

Microwave composite board according to the present invention does not feel the film cracks due to deterioration after heating, and does not feel visually rejected as a packaging material, and can thaw and cook frozen foods in a short time compared to conventional aluminum foil tray Has an effect.

Description

Microwave Composite Cardboard

The present invention relates to a microwave susceptible film laminated paperboard, and more particularly to a microwave oven composite that can quickly thaw and cook food for a microwave oven using a conductive metal heated by microwaves. It's about cardboard.

As a package that can defrost or cook a variety of foods using a microwave heating principle, that is, the heat generation principle of microwaves, the conductive metal film which has received electromagnetic waves is heat-resistant based on the principle that the electromagnetic energy is thermal energy as Joule heat. Aluminum is deposited on one side of a plastic film in a thickness of 50 to 70 mm 3.

The aluminum deposition film (heating element) absorbs and transmits most microwaves to heat food, and unlike general packaging films, that is, films in which aluminum is vacuum-deposited to a thickness of 350 to 400 Å, electromagnetic wave reflection and sparking do not occur. Do not.

In fact, the aluminum deposition film is not used as it is, and most of them are bonded and used on paperboard.

Specifically, in the prior art, a heating tray in which an aluminum foil tray and a heating element in which aluminum is deposited on one surface of a PET film having a thickness of 12 μm as a heating element for a microwave oven are bonded to a paper board using an acrylic resin adhesive, or the heating element is placed in a packaging box. Attached ones were used.

In the aluminum foil tray, when the food is cooked using a microwave oven, the cooked food does not taste like the cooked food is not soggy or crispy. In addition, the heating element with aluminum metal deposited on the PET film to have an optical density of 0.22 to 0.28 (Light trancmission rate of 50 to 60%) converts electromagnetic waves into thermal energy. Browning: It turns yellow and has a crisp texture, but it has a drawback that the cracks in the film of the heating element make it feel visually rejected.

An object of the present invention is to provide a composite cardboard for microwave oven with excellent heat generation performance by controlling the deposition thickness of the aluminum as well as there is no crack in the film of the heating element during the thawing and cooking of food, there is no naked eye.

In addition, another object of the present invention to provide a productive manufacturing method of the composite cardboard for microwave.

Microwave composite cardboard for achieving the object of the present invention, in a composite composite film for microwave oven in which an aluminum thin film and a polyester film are sequentially laminated on a paper cardboard, 50 to 30㎛ polyester film The heat-generating element and the paper board which vacuum-deposited aluminum to the thickness of -70 micrometers are laminated | stacked by the water-based ethylene vinyl acetate (EVA) type adhesive agent.

In addition, a method for manufacturing a composite cardboard for microwave, comprising: forming a heating element by forming an aluminum thin film by vacuum deposition on a PET film having a heat resistance and a thickness of 25㎛; It is composed of a step of laminating by applying an aqueous EVA-based adhesive (solid content 50%) to at least one of the aluminum thin film surface of the heating element and one side of the paper cardboard.

In the present invention produced by such a method, a composite board for a microwave oven can be used directly as a heating tray.

1 is a cross-sectional view of the composite cardboard for microwave oven according to the present invention.

Figure 2a, 2b, 2c is a cross-sectional view showing an application example (frozen pizza, fried chicken, potato chips) of the composite cardboard for microwave.

Explanation of symbols on the main parts of the drawings

1: composite cardboard 2: pizza

3: paper box (packing box) 3a: lid

4: Fried Chicken 5: Potato Chips

10: paper board 20: heating element

22: PET (polyester) film 24: aluminum thin film

30: adhesive (layer)

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a structural cross-sectional view of a composite cardboard for a microwave oven according to the present invention.

Referring to the drawing, the composite cardboard 1 for a microwave oven is composed of a paper board 10, the heating element 20 and the adhesive layer 30, the heating element 20 is a PET film 22 and an aluminum thin film 24 It is composed of Here, the heating element should be adjusted so that the light transmittance at the optical density of 0.22 to 0.30 is 50 to 60%.

When the PET film 22 used as the base film is 15 μm or less in thickness, cracks are generated during thawing and cooking of foods, so it is preferable to use 15 μm or more, especially 15 to 30 μm thick. In addition, the thickness of the conductive layer, that is, the aluminum thin film that most affects the heat generating performance of the composite board, is preferably 50 to 70 kPa in consideration of the heat generating performance, cost, and productivity.

In addition, it is preferable to use an aqueous adhesive as an adhesive to prevent the solvent from remaining after adhesion, and most preferably, an aqueous EVA adhesive.

Paperboard (paperboard) has a packaging strength to replace the conventional aluminum tray or tray cardboard, it is recommended to use the pure pulp of the basis weight 400 ~ 600g / ㎡ currently used as milk cartons. It is also possible to use paperboard to make a box.

The composite cardboard 1 for a microwave oven constructed in this way is manufactured by the following procedure.

1) Aluminium is deposited on one surface of the PET film 22 for food packaging using a vacuum evaporator under a pressure of 10-2 to 10-6 Torr. At this time, the thickness of the aluminum thin film 24 which is a conductive layer is adjusted to 50-70 GPa.

2) After applying the aqueous EVA-based adhesive 30 to about 5 ~ 6g / ㎡ on the aluminum deposited film, that is, the aluminum thin film of the heating element 20 by using a laminating machine and dried by laminating with a paper cardboard (10).

3) Cut the dried composite cardboard (1) so that it can be used as a tray for food. Such composite cardboard can be used directly as a heating tray in a microwave oven.

Hereinafter, the present invention will be described in detail with reference to Examples.

Example

Aluminum was vacuum-deposited on one side of a biaxially stretched polyester film having a thickness of 25 μm. At this time, the light transmittance of the aluminum thin film (heating element) was 52% (in reality, it is difficult to measure the thickness of the aluminum thin film, and the thickness can be adjusted to 50 to 70 의해 by adjusting the light transmittance), and the density of the heating element is expressed by Equation 1 below. It was calculated as 0.28.

[Equation 1]

In Equation 1, O.D is optical density and T is light transmittance.

In addition, the optical density according to the light transmittance in the film having a thickness of 25㎛ is shown in Table 1 below.

TABLE 1

Next, an aqueous EVA-based adhesive (Samwon Chemical, MO-40 grade) is applied on the aluminum thin film of the heating element to a thickness of 6 g / m 2, and then paperboard is laminated. At this time, the heating element and paper cardboard supplied were attached and laminated in the form of a roll in a paper machine and dried in an oven.

In order to find out the properties of the composite cardboard manufactured in the above embodiment, a commercially available frozen pizza (Napori Pizza from Haitai Confectionery) was purchased and placed in quarters according to the size on the composite cardboard. The test was carried out while the results are shown in Table 2.

TABLE 2

As a result, the texture of pizza pie was similar to that of the existing aluminum tray when the composite paper made of a polyester film deposited with aluminum with a thickness of 50Å ~ 70Å was laminated on a paperboard, but it was heated by electromagnetic waves generated in a microwave oven. The cracked phenomenon did not appear on the surface polyester film of the composite cardboard, and the heating state due to electromagnetic waves in the microwave oven was superior to that of the aluminum foil tray currently in use.

In addition, the composite cardboard according to the present invention was made before and after heating the sample in the microwave and asked the Korea Household Appliances Testing Institute for dissolution test of harmful substances on the material, it was confirmed that there is no abnormality in stability as a packaging material.

As described in detail above, the microwave composite board according to the present invention does not generate a film crack due to deterioration after heating, and does not feel visual rejection as a packaging material, frozen food, etc. in a short time compared to the conventional aluminum foil tray It has the effect of thawing and cooking.

Claims (5)

In the composite board for microwave oven, in which an aluminum thin film and a polyester film are sequentially laminated on a paper board, a heating element and paper in which aluminum is vacuum-deposited to a thickness of 50 to 70 mm on a polyester film having a thickness of 15 to 30 μm. A composite board for microwave ovens, characterized in that the board is laminated with an aqueous ethylene vinyl acetate adhesive. The composite cardboard for a microwave oven according to claim 1, wherein the paper cardboard is made of pulp having a basis weight of 400 to 600 g / m 2. Forming a heating element by forming an aluminum thin film on a PET film having a heat resistance and a thickness of 25 μm by vacuum deposition; A method of manufacturing a composite cardboard for a microwave oven comprising the step of applying a water-based ethylene vinyl acetate-based adhesive to at least one of the surface of the aluminum film and the surface of the paper sheet of the heating element to laminate. 4. The method according to claim 3, wherein the aqueous ethylene vinyl acetate adhesive is coated on one surface of paper cardboard and aluminum thin film at 5 to 6 g / m 2. 4. The method of claim 3, wherein the aqueous ethylene vinyl acetate adhesive is 50% solids.