JP4120288B2 - Packaging materials - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a packaging material having oil resistance. More specifically, it is oil-resistant without impairing the air permeability and water vapor permeability of the packaging material, and is previously filled with a fiber structure having a porosity excellent in air permeability and water vapor permeability. In addition, the packaging material is characterized by impregnating the resin, slowing the oil permeability with the resin, and selectively providing air permeability and water vapor permeability due to the adsorptivity and porosity of the filler. .
[0002]
[Prior art]
Conventionally, as a packaging material having oil resistance, there is a material in which a fluorine-based resin is internally added, coated, or impregnated. In addition, there are various types such as those coated with a silicon-based resin, those impregnated with paraffin wax, those coated with a resin, and those laminated with polyolefin (particularly PE).
Fluorine-based oil-resistant mechanism is dispersed on the paper surface or all layers like silicon, and repels oil by lowering the surface tension of paper. Internal addition or size of about 1-2 g / m ² Oil resistance can be provided by pressing. Since a very low molecular weight polymer is dispersed in a small amount, it does not fill the original paper voids, and thus has excellent air permeability and water vapor permeability.
For this reason, when food such as fried food that has a high oil content and emits water vapor with its own heat is wrapped in a wrapping paper bag made of this oil-resistant paper, the water vapor condenses in the bag and the fried food Moisturizes and does not spoil the flavor.
However, in recent years, danger has been pointed out in the heat resistance of fluororesins, and supply instability is being caused.
In addition, for silicon-based oil-resistant packaging materials, compared to fluorine-based resins, the effect of increasing slipperiness is very high, resulting in processed paper with poor paste applicability. There is a limit.
Further, even those impregnated with paraffin wax have a problem of poor paste applicability.
Further, in the method of laminating other polyolefin films, there is a problem that the air permeability of paper is lost in order to form a complete coating film.
[0003]
[Problems to be solved by the invention]
The present invention has been made in view of such problems, and a non-fluorine-based resin is used to provide oil resistance without impairing the air permeability of paper or the like by coating or impregnation processing. It is an issue to provide.
[0004]
[Means for Solving the Problems]
The above problem can be solved by the following means.
[0005]
The first invention of the present invention is a fiber structure comprising an acrylic resin mixed with at least one of a clay-based filler, a non-clay-based filler, a filler containing an inorganic filler, and a plastic pigment as an aqueous emulsion. Packaging material characterized by having an air permeability (JIS P8117 Gurley air permeability) of 2000 seconds or less and an oil resistance (TAPPI UM557) of KIT 6 or more by being dispersed in the surface layer or all layers of the product It is what.
[0006]
In the second invention of the present invention, at least one of styrene and butadiene is copolymerized with an acrylic monomer, and a clay filler, a non-clay filler, a filler containing an inorganic filler, or a plastic pigment is used . By dispersing the resin mixed with one of these as an aqueous emulsion in the surface layer or all layers of the fiber structure, the air permeability (JIS P8117 Gurley air permeability) is 2000 seconds or less, and the oil resistance ( TAPPI UM557) is a packaging material characterized by KIT6 or higher.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in more detail.
[0013]
The packaging material of the present invention is a cellulose-based structure such as general plain paper, corrugated paper, coated cardboard, cup base paper, or pulp mold body, which is a structure mainly composed of cellulose and made from slurry pulp. Consists of.
In the present invention, thin paper such as fine paper, bleached craft, imitation paper, pure white roll, glassine paper and semi-glassine paper, or paperboard such as coated cardboard paper, cup base paper and guard paper can be preferably used.
It is also possible to use either paper made from 100% virgin pulp, recycled paper from recycled waste paper, or base paper made by laminating these papers in the paper making process.
Furthermore, in this invention, the cellulose fiber structure which comprises an impregnation is not limited to a material and a structure, What is necessary is just to select what can be used as a base material arbitrarily.
[0014]
The processing method for imparting heat resistance to the base material is the coating amount, impregnation amount according to the required performance such as internal addition during paper making, size press, air knife, comma coater, gravure coater, flexographic printing, doppling impregnation, etc. Can be selected.
[0015]
As the acrylic monomer constituting the acrylic resin that is a resin imparting oil resistance, monomers such as ethyl methacrylate and methyl methacrylate can be preferably used, but there is no particular limitation. The acrylic monomer is preferably used in the present invention because the film formability is good and the carboxyl group has oil repellency.
In addition, when styrene is copolymerized with the acrylic monomer, toughness can be provided in addition to film-forming properties and oil repellency.
Furthermore, when butadiene is copolymerized with the acrylic monomer, flexibility can be imparted in addition to film-forming properties and oil repellency.
[0016]
By using the filler in the present invention, air permeability can be imparted while filling the fiber structure due to the porosity and bulky volume of the filler.
As the filler, those generally used for paper processing can be used, and in particular, clay-based fillers, non-clay-based fillers, or inorganic fillers (inorganic fibers) can be used favorably.
[0017]
As a clay-based filler, 3MgO · 2SiO · 2H2O (hydrous magnesium silicate) has the small specific gravity (= 1), is smooth and well-extended, and has good dispersibility in acrylic emulsions. Is called.
In addition, when Al2O3 · 2SiO2 · 2H2O (kaolin) or the like is mixed, it has a layered structure, so that oil, water, and the like can be adsorbed. Moreover, since it has a layered structure, it has breathability in the eyes that have holes.
Al 2 O 3 .5SiO 2 .2H 2 O (bentonite) has a similar structure.
Further, Al2O3 · K2O · SiO2 (white mica) is not very dispersible but can be preferably used when heat resistance is required because it improves heat resistance.
In addition, fine silica called silica, silica sand, ocher, etc. can be used.
[0018]
As the non-clay-based filler, those having a particle diameter of about 1 μm to 5 μm, such as calcium bicarbonate and light calcium carbonate, can be preferably used, but the present invention is not limited to this, and may be appropriately selected.
[0019]
As the inorganic filler, an inorganic filler having glass fiber, silica fiber, carbon fiber or the like can be preferably used. Even when the resin is impregnated into the fiber structure and the void is filled, the fine filler is bridged between the fiber and the fiber. And since gas passes, it can give air permeability.
[0020]
In addition, although it is more expensive than those described above, plastic pigments can also be used favorably. The most commonly used are emulsion type fine particles obtained by copolymerizing an acrylic monomer and styrene. Since it is a synthetic type, it is possible to devise ingenuity in the particle shape, and various types such as a donut type, a spherical shape, and a confetti type are commercially available. The particle diameter is generally 0.2 to 0.4 μm, but this can also be freely selected. In the present invention, an acrylic styrene-based, hollow emulsion pigment could best impart air permeability.
[0021]
When a coating film is formed at a high concentration on the surface of a fiber structure, it is possible to provide air permeability by mixing inorganic fillers and fillers with high porosity such as calcium carbonate. Since the agent adsorbs oil in the pores, it is possible to adjust the oil penetration rate depending on the blending ratio.
Further, by impregnating the voids of the fiber structure with a resin, it is possible to provide a packaging material with a low oil permeation rate while maintaining a certain degree of air permeability.
Furthermore, as in the case of coating, it is possible to adjust the oil penetration rate by mixing a filler.
As a result, by adding the voids of the fiber structure to the resin and filling it with a porous filler, the air permeability was further improved, and the permeation rate could be further reduced by the oil adsorbed on the filler.
Further, by using the packaging material of the present invention, unlike a fluorine-based oil-resistant paper, it was possible to provide a package with a very slow penetration rate while allowing oil to penetrate. In addition, since it has a certain degree of air permeability, it is possible to obtain a package that does not cause water vapor condensation when the contents are put in, or that does not breathe and burst when placed in a microwave oven. did it.
[0022]
【Example】
Next, specific examples of the present invention will be described in detail below.
[0023]
<Example 1>
The test was performed using high-quality paper having a basis weight of 35 g / m ² , a porosity of 70%, and a density of 0.4 g / cm ² .
This fine paper has many fine voids as a thin paper, and the original amount of gas permeation (air permeability) is very large. When measured according to the air permeability (JIS P8117), it is 10 sec or less. Met.
To itself where, acrylic / styrene / butadiene copolymer in the surface layer thin coating obtained by an aqueous emulsion surface layer 3 g / m ² · dry, to evaluate the time to strike and dropped salad oil, It took 12 hours.
Next, when a time-lapse test (acceleration test by applying a temperature of 40 ° C.) was performed with a commercially available chocolate, it was equivalent to that of a general fluorine oil-resistant paper (KIT8).
Moreover, when the air permeability of this product was measured, it was 2000 sec.
This can be used in packages that require low oil resistance, such as chocolate that is shellac coated.
[0024]
<Example 2>
The test was performed using high-quality paper having a basis weight of 35 g / m ² , a porosity of 70%, and a density of 0.4 g / cm ² .
An acrylic / styrene copolymer mixed with calcium carbonate as a filler was uniformly dispersed in all layers by internal addition. When the presence or absence of penetration of this product was evaluated by the KIT method, the oil resistance was equivalent to that of a general fluorine oil resistant paper (KIT12). When the air permeability of this was measured, it was 300 sec. When salad oil was applied to the surface and left overnight, there was no stain on the back surface, and it could be used well for packages such as fried foods.
A freshly-fried fried chicken was put in this package, and a real packaging test was conducted. No condensation of water vapor was observed. Moreover, when the mouth was closed and put into a microwave oven, the gas was completely sealed, and it did not expand and break the bag.
[0025]
<Example 3>
The test was performed using high-quality paper having a basis weight of 35 g / m ² , a porosity of 70%, and a density of 0.4 g / cm ² .
An acrylic / styrene / butadiene copolymer mixed with bakelite as a filler was uniformly dispersed in the entire layer by internal addition. The presence or absence of penetration of this product was evaluated by the KIT method. Regarding oil resistance, it was equivalent to that of general fluorine oil resistant paper (KIT10). When salad oil was applied to the surface and left overnight, there was no stain on the back, and it could be used well for packages such as donuts. When the air permeability of this was measured, it was 300 sec.
In addition, oil does not collect inside the package as in PE-laminated oil-resistant bags, and the whole oil soaks up and absorbs (absorbs), so that the inside of the bag becomes sticky with oil. There was no.
[0026]
<Example 4>
The test was performed using high-quality paper having a basis weight of 35 g / m ² , a porosity of 70%, and a density of 0.4 g / cm ² .
An acrylic / styrene / butadiene copolymer mixed with an inorganic filler as a filler was uniformly dispersed in all layers by internal addition. The presence or absence of penetration of this product was evaluated by the KIT method. The oil resistance was equivalent to that of general fluorine oil resistant paper (KIT8). When salad oil was applied to the surface and left overnight, there was no stain on the back surface, and it could be used well for packages such as chocolate. When the air permeability of this was measured, it was 1500 sec.
[0027]
<Example 5>
The test was performed using high-quality paper having a basis weight of 50 g / m 2, a porosity of 60%, and a density of 0.5 g / cm 2.
An acrylic / styrene / butadiene copolymer mixed with acrylic / styrene hollow particles as a filler was uniformly dispersed in the entire layer by internal addition. The presence or absence of penetration was evaluated by the KIT method. The oil resistance was equivalent to that of general fluorine oil resistant paper (KIT8).
When salad oil was applied to the surface and left overnight, there was no stain on the back surface, and it could be used well for packages such as chocolate. When the air permeability of this was measured, it was 500 sec.
[0028]
【The invention's effect】
The present invention is applied to the field of packaging that requires oil resistance. More specifically, it is oil-resistant without impairing the air permeability and water vapor permeability of the paper, and wraps food that is covered with high-temperature oil such as fried food, and the oil on the back of the paper. Since it has gas permeability while preventing permeation of water, the water vapor produced by the fried food itself does not adhere to the inside of the package and does not condense, so that the fried food is not dampened and the flavor is not impaired. In addition, when reheating in a microwave oven or the like, a package in which the bag does not expand excessively and does not break can be obtained.

Claims (2)

Acrylic resin mixed with at least one of clay-based fillers, non-clay-based fillers, fillers containing inorganic fillers , and plastic pigments is dispersed in the surface layer or all layers of the fiber structure as an aqueous emulsion. A packaging material characterized by having an air permeability (JIS P8117 Gurley air permeability) of 2000 seconds or less and an oil resistance (TAPPI UM557) of KIT6 or more. A resin obtained by copolymerizing at least one of styrene and butadiene with an acrylic monomer, and mixing at least one of a clay filler, a non-clay filler, a filler containing an inorganic filler, and a plastic pigment. As an aqueous emulsion, the air permeability (JIS P8117 Gurley air permeability) is 2000 seconds or less and the oil resistance (TAPPI UM557) is KIT6 or more. A packaging material characterized by that.