JP7269459B1 - Water and oil resistant heat sealing paper - Google Patents

Abstract

A water- and oil-resistant heat-sealable paper having water resistance, oil resistance, and heat-sealability, and capable of being stored for a long period of time. A water and oil resistant heat seal paper having a coating layer containing a thermoplastic resin, wax and pigment on at least one surface of a paper base. [Selection figure] None

Description

The present invention is a water- and oil-resistant heat-sealing paper, especially packaging materials for foods, bags, containers, boxes, cups,
The present invention relates to a water- and oil-resistant heat-sealable paper suitable for packaging such as a lid material, having water resistance, oil resistance and heat-sealability, and capable of being stored for a long period of time.

In recent years, plastic waste has been raised as a major problem because there is concern that plastic that has flowed into the environment as waste will not be decomposed semi-permanently and will adversely affect the ecosystem. As a countermeasure, it has been proposed to replace plastic with paper, which is a biomass-derived material and a biodegradable material.
On the other hand, conventionally, when paper packaging materials are molded into food packaging materials, bags, containers, boxes, cups, lids, etc., heat is applied to polyolefin resins such as polyethylene, polypropylene, and polymethylpentene. It is common practice to laminate a plastic resin on a packaging material by an extrusion lamination method or the like to impart heat-sealability.

However, these thermoplastic resin laminates use about 10 to 30 g/m ² of thermoplastic resin, and the amount of plastic is not sufficiently reduced. For this reason, currently, packaging paper is provided in which the laminated coating layer is thinned and reduced in weight by coating a paper base material with a water or solvent dispersion containing a thermoplastic resin dispersion (patent Reference 1, etc.).
However, coated paper is rolled up and stored until the paper packaging material is formed into food packaging materials, bags, containers, boxes, cups, lid materials, etc. However, it should be stored at room temperature. There is a problem that blocking occurs during long-term storage. For this reason, it is necessary to provide a wrapping paper that has both good blocking resistance and heat-sealability.
In addition, pinholes may occur during coating, and especially in wrapping paper that requires water resistance and oil resistance, sufficient water resistance and oil resistance may not be obtained due to these pinholes. The wrapping paper desirably has good pinhole resistance.

Japanese Patent No. 6580291

The present invention has water resistance, oil resistance, heat sealability, and water resistance and oil resistance that can be stored for a long period of time. The object is to provide a heat-sealable paper.

Means for solving the problems of the present invention are as follows.
1. A water- and oil-resistant heat seal paper comprising a coating layer containing a thermoplastic resin, a wax and a pigment on at least one side of a paper substrate.
2. 1. The coating layer contains 3 parts by mass or more of wax and 15 parts by mass or less of pigment with respect to 100 parts by mass of thermoplastic resin. The water and oil resistant heat seal paper described in .
3. 1. The wax contained in the coating layer is carnauba wax. or 2. The water and oil resistant heat seal paper described in .
4. 1. The coating layer contains a thermoplastic resin having a glass transition temperature of 100° C. or less. ~3. The water and oil resistant heat seal paper according to any one of .
5. 1. The thermoplastic resin contained in the coating layer is an ethylene-acrylic acid copolymer resin. ~ 4. The water and oil resistant heat seal paper according to any one of .
6. 1. The pigment contained in the coating layer is an inorganic flat pigment. ~ 5. The water and oil resistant heat seal paper according to any one of .

According to the present invention, it is possible to provide water- and oil-resistant heat-sealable paper that has heat-sealability and that can be stored for a long period of time. The water and oil resistant heat seal paper of the present invention is excellent in pinhole resistance, water resistance and oil resistance. The water- and oil-resistant heat seal paper of the present invention can be suitably used for packaging applications such as food packaging materials, bags, containers, boxes, cups, and lid materials.

The present invention relates to a water- and oil-resistant heat-sealable paper (hereinafter also referred to as heat-sealable paper) characterized by having a coating layer containing a thermoplastic resin, wax, and pigment on at least one surface of a paper substrate. .

(Paper substrate)
The paper base material is obtained by making a paper stock containing pulp, fillers, various auxiliary agents, and the like.
When the heat-sealable paper of the present invention is used for applications that come into contact with food, each material of the paper substrate is approved as a food additive or certified by the FDA, and conforms to food safety. is preferably used.

As pulp, softwood bleached kraft pulp (NBKP), unbleached kraft pulp (NU
KP), bleached hardwood kraft pulp (LBKP), unbleached kraft pulp (LUKP), chemical wood pulp such as sulfite pulp (SP), ground pulp (GP), refiner ground pulp (RGP), stone ground pulp (SGP), chemigrind pulp (
CGP), semi-chemical pulp (SCP), thermo-mechanical pulp (TMP), chemi-thermomechanical pulp (CTMP), etc., non-wood pulp obtained from kenaf, bagasse, bamboo, hemp, straw, etc., waste paper is used as a raw material, and a known pulp such as used paper pulp obtained by removing the ink contained in the used paper in a deinking process can be appropriately blended and used. Among these, chemical pulps such as LBKP and NBKP, which are less likely to be contaminated with foreign matter, are preferable.
It is preferable that the content of waste paper pulp is small. Specifically, the amount of chemical pulp is 80%
It is preferable that the content of the chemical pulp is 100%.
Also, the content of waste paper pulp is preferably 10% or less, more preferably 1% or less, and most preferably not included.

Fillers include talc, kaolin, calcined kaolin, clay, heavy calcium carbonate, light calcium carbonate, white carbon, zeolite, magnesium carbonate, barium carbonate, titanium dioxide, zinc oxide, silicon oxide, amorphous silica, and aluminum hydroxide. , inorganic fillers such as calcium hydroxide, magnesium hydroxide, zinc hydroxide, barium sulfate, calcium sulfate,
Known fillers such as organic fillers such as urea-formalin resins, polystyrene resins, phenol resins, fine hollow particles and the like can be used. Note that the filler is not an essential material and may not be used.

Various auxiliaries include sizing agents such as rosin, alkylketene dimer (AKD), alkenylsuccinic anhydride (ASA), polyacrylamide-based polymers, polyvinyl alcohol-based polymers, cationized starch, various modified starches, urea, Formalin resin, dry paper strength enhancer such as melamine/formalin resin, wet paper strength enhancer, retention agent, drainage improver, coagulant, aluminum sulfate, bulking agent, dye, fluorescent whitening agent, pH adjuster, Antifoaming agents, anti-ultraviolet agents, anti-fading agents, pitch control agents, slime control agents and the like can be exemplified, and can be appropriately selected and used as necessary.

The manufacturing (papermaking) method of the paper substrate is not particularly limited, and fourdrinier paper machine, cylinder paper machine,
A known production (papermaking) method and papermaking machine such as a short wire paper machine, a gap former type, a hybrid former type (on-top former type), and other twin wire paper machines can be selected.
The pH during papermaking may be in the acidic region (acidic papermaking), quasi-neutral region (quasi-neutral papermaking), neutral region (neutral papermaking), or alkaline region (alkaline papermaking). After that, the surface of the paper layer may be coated with an alkaline chemical. Moreover, the paper base material may be composed of one layer, or may be composed of multiple layers of two or more layers.

Furthermore, it is possible to treat the surface of the paper substrate with various chemicals. Agents used include oxidized starch, hydroxyethyl etherified starch, enzyme-modified starch, polyacrylamide,
Polyvinyl alcohol, surface sizing agents, waterproof agents, water retention agents, thickeners, lubricants and the like can be exemplified, and these can be used alone or in combination of two or more. moreover,
These various agents and pigments may be used in combination. Pigments include kaolin, clay, engineered kaolin, delaminated clay, ground calcium carbonate, light calcium carbonate, mica, talc, titanium dioxide, barium sulfate, calcium sulfate, zinc oxide, silicic acid, silicates, colloidal silica, and satin. Inorganic pigments such as white and organic pigments such as solid-type, hollow-type, or core-shell-type pigments can be used alone or in combination of two or more.

The method of surface treatment of the paper substrate is not particularly limited, but a known coating apparatus such as a rod metering size press, a pound size press, a gate roll coater, a spray coater, a blade coater and a curtain coater can be used. can be done.
Paper substrates thus obtained include woodfree paper, medium-quality paper, coated paper, one-sided glossy paper, kraft paper, one-sided glossy kraft paper, bleached kraft paper, glassine paper, paperboard, white paperboard, liner, and the like. Various known ones can be exemplified.

The basis weight of the paper base material can be appropriately selected depending on the desired quality, handleability, etc., but is usually preferably 20 g/m ² or more and 600 g/m ² or less. 25 g/m ² for heat seal paper used for packaging such as food packaging materials, bags, containers, boxes, cups, lids, etc.
600 g/m ² or more is more preferable, and particularly in the case of heat seal paper used for bags, lid materials, or soft packaging materials described later, 30 g/m ² or more and 150 g/m ² or less is preferable for containers. , boxes, and heat seal papers used for cups: 150 g/m ² or more 350
g/m ² or less is more preferable. Flexible packaging materials are packaging materials that are made of highly flexible materials. Generally, thin and flexible materials such as paper, film, and aluminum foil are used alone or laminated Refers to packaging materials. Moreover, the shape refers to a packaging material such as a bag that maintains a three-dimensional shape by putting contents therein.
The density of the paper base material can be appropriately selected depending on the desired quality, handleability, etc., but is usually preferably 0.5 g/cm ³ or more and 1.0 g/cm ³ or less.

(Coating layer)
The heat-sealable paper of the present invention has a coating layer containing a thermoplastic resin, wax and pigment on at least one side of a paper substrate.
The coating layer is a layer that imparts heat-sealability, and specifically, a layer that can be adhered to an object to be adhered by applying heat and pressure. Having heat-sealability makes it easy to mold into a packaging form, maintain shape, and ensure sealing performance, especially in packaging applications such as food packaging materials, bags, containers, boxes, cups, and lid materials. .

- Thermoplastic resin The thermoplastic resin used in the present invention can be used without particular limitation to those used for forming a heat seal layer in the papermaking field, for example, a glass transition temperature of 10
A temperature of 0° C. or lower can be used. The glass transition temperature of thermoplastic resin is -20°C
It is preferable that the temperature is 85° C. or higher. In addition, the melting point of the thermoplastic resin is 80° C. or higher and 120
°C or less. Examples of thermoplastic resins include low-density polyethylene (L
DPE), high density polyethylene (HDPE), linear low density polyethylene (LLDPE)
, polypropylene (PP), polyvinyl acetate (PVAc), polyester resin (PET)
, ethylene methacrylic acid copolymer resin (EMAA), ethylene methyl acrylate copolymer resin (EMA), ethylene acrylic acid copolymer resin (EAA), ethylene vinyl acetate copolymer resin (EVA), styrene acrylic acid ester copolymer resin, poly Lactic acid resin or the like can be used. Moreover, the thermoplastic resin can be used singly or in combination of two or more. Among these, ethylene-acrylic acid copolymer resins having high heat-sealability are preferred.

Waxes The waxes used in the present invention are not particularly limited, and include paraffin waxes mainly composed of alkane compounds, natural oil and fat waxes derived from animals and plants such as carnauba and lanolin, silicones or silicone-containing waxes containing silicone compounds, A fluorine-containing wax or the like containing a fluorine compound can be used. Waxes can be used singly or in combination of two or more. Among these, carnauba wax is preferred.

In the present invention, the amount of the wax to be blended is not particularly limited, but it is preferable to include 3 parts by mass or more of the wax, more preferably 4 parts by mass or more, based on 100 parts by mass of the thermoplastic resin in terms of dry weight. preferable. If the wax content is less than 3 parts by mass, sufficient blocking resistance may not be obtained. Moreover, it preferably contains 15 parts by mass or less of wax, more preferably 12 parts by mass or less, based on 100 parts by mass of the thermoplastic resin in terms of dry weight. Even if the blending amount of the wax exceeds 15 parts by mass, the blocking resistance is saturated and hardly improved, resulting in an increase in cost.

・Pigment The pigment used in the present invention is not particularly limited, and includes kaolin, clay, engineered kaolin, delaminated clay, ground calcium carbonate, ground calcium carbonate, mica, talc, titanium dioxide, barium sulfate, calcium sulfate, Inorganic pigments such as zinc oxide, silicic acid, silicates, colloidal silica and satin white, and organic pigments such as solid type, hollow type, core-shell type and the like can be used. In addition, pigments can be used singly or in combination of two or more. Among these, inorganic flat pigments are preferable from the viewpoint of improving water resistance. A flat pigment means a pigment having an aspect ratio of 10 or more.

In the present invention, the amount of the pigment to be blended is not particularly limited, but preferably 15 parts by mass or less, more preferably 12 parts by mass or less, of the pigment is contained with respect to 100 parts by mass of the thermoplastic resin in terms of dry weight. preferable. If the amount of the pigment added exceeds 15 parts by mass, sufficient water resistance may not be obtained. In addition, it is preferable that the pigment is contained in a dry weight of 0.1 parts by mass or more, more preferably 3 parts by mass or more, based on 100 parts by mass of the thermoplastic resin. The amount of pigment blended is 0
. If it is less than 1 part by mass, the pinhole resistance may deteriorate.

The coating layer of the present invention contains a thermoplastic resin, wax and pigment. Wax prevents the occurrence of blocking, but may cause the occurrence of pinholes. By blending the wax and the pigment in combination with the thermoplastic resin, it is possible to suppress the generation of pinholes in the coating layer. The blending ratio of the wax and the pigment is not particularly limited as long as it is within a range in which both blocking resistance and pinhole resistance can be achieved, but the mass ratio of wax:pigment is 10:90.
~80:20 is preferable, and 20:80 to 70:30 is more preferable.

The heat-sealable paper of the present invention may have a coating layer and a paper base material, and a filling layer,
It may have other layers such as a printing layer, a light shielding layer, a water vapor barrier layer and a gas barrier layer, and preferably has a filler layer between the coating layer and the paper substrate.
(Filling layer)
The filler layer prevents deterioration of the performance of the coating layer by suppressing the sinking of the coating liquid for the coating layer into the paper substrate. By having the filling layer, it is possible to reduce the occurrence of coating defects such as pinholes and streaky unevenness in the coating layer, and to improve water resistance and oil resistance.
The filler layer is not particularly limited as long as it can suppress the sinking of the coating liquid for the coating layer into the paper substrate, but preferably contains a thermoplastic resin and a pigment, for example. In addition, the sealing layer may contain a sizing agent, a water-resistant agent, a water-repellent agent, a dye, a surfactant, and the like, if necessary.
Known thermoplastic resins and pigments used in filling layers can be used. The amount of the pigment in the filling layer is not particularly limited as long as it is within the range where the filling effect can be exhibited.
00 parts by mass or less is preferably included.

The coating method of the coating layer and the filling layer is not particularly limited, and coating can be performed using a known coating apparatus and coating system. Examples of coating equipment include blade coaters, bar coaters, air knife coaters, curtain coaters, spray coaters, roll coaters, reverse roll coaters, size press coaters and gate roll coaters. Examples of the coating system include water-based coating using a solvent such as water, and solvent-based coating using a solvent such as an organic solvent. Since the heat-sealable paper of the present invention may be used in applications where it comes into contact with food or the like, water-based coating is preferred from the standpoint of food safety.
The viscosity, solid content concentration, and the like of the coating liquid can be appropriately adjusted according to the coating apparatus, coating system, and the like to be used.

The coating amount (dry weight) of the coating layer is preferably 1 g/m ² or more and 20 g/m ² or less per side. If the coating amount is less than 1 g/m ² per side, the water resistance, oil resistance, and heat-sealability are lowered. Also, even if the coating amount exceeds 20 g/m ² per side, the water resistance, oil resistance, and heat-sealability are hardly improved, and the cost increases. The coating layer may be one layer, or may be composed of multiple layers of two or more layers. When the coating layer is composed of multiple layers of two or more layers, it is preferable to make the total coating amount of all the coating layers within the above range.
In addition, when a filling layer is provided, the coating amount (dry weight) is 3 g/m ² or more and 20 g/
It is preferably m ² or less.

The heat-sealable paper of the present invention has the maximum water absorbency (Cobb value) measured at a contact time of 1800 seconds in accordance with "Paper and paperboard-Water absorption test method-Cobb method" specified in JIS P8140: 1998. is preferably 15 g/m ² or less, more preferably 5 g/m ² or less.
The heat-sealable paper of the present invention is disclosed in J. Am. TAPPI No. 41: 2000 "Paper and paperboard - Oil repellency test method - Kit method", the lowest kit number measured at any 5 points on the surface of the oil resistant layer is 6 or more. is preferred, 10 or more is more preferred, and 12 is most preferred.

The water- and oil-resistant heat-sealing paper of the present invention can be used as a water- and oil-resistant heat-sealing paper used for packaging such as food packaging materials, bags, containers, boxes, cups, lids, and the like. Among these, it can be suitably used for containers, boxes, cups, and more preferably for drinking cups.

(Evaluation method)
(1) Water resistance JIS P8140: 1998 Paper and paperboard - Water absorption test method - Cobb 1800 seconds was measured at two arbitrary points on the surface of the coating layer by the Cobb method. The average value of the two measurements was adopted as the water resistance value.
(2) Oil resistance J.I. TAPPI No. 41:2000 Paper and Paperboard--Oil Repellency Test Method--The kit number was determined at three arbitrary points on the surface of the coating layer by the kit method. The median value of the kit numbers measured at 3 points was adopted as the oil resistance value.

(3) Heat sealing suitability (heat sealing conditions)
Two 100 mm square test pieces were cut out from the obtained heat-sealed paper, and the coating layers were brought into contact with each other, and the temperature was 160°C, the pressure was 2 kgf/cm ² , and the time was 0.5 seconds. It was heat sealed with
When the heat-sealed test piece was manually peeled off, the peeled portion was visually observed, and the heat-sealability was evaluated according to the following criteria.
○: Detachment within the paper substrate (paper substrate is destroyed)
×: Peeling between coating layers

(4) Blocking ASTM D918-81, Standard Test Method for B
Locking Resistance of Paper and Paperboa
By rd, the coating layers were brought into contact with each other and the degree of blocking after storage for 24 hours under conditions of 60° C. and 75% RH was evaluated. If the evaluation is ◯, there is no practical problem. This evaluation method is an evaluation method assuming storage of products in a warehouse or the like.
[Evaluation criteria]
○: No blocking or mild blocking, can be easily removed ×: Strong blocking, cannot be easily removed (5) Pinhole resistance Staining solution containing surfactant (surfactant Agent: Tipor Eight 0.2%, Dye: Brilliant Blue 0.05%, Surface Tension 28.4 mN/m) is dropped at 10 ml each on any two points on the surface of the coating layer, and after 10 seconds, the dyeing solution is wiped off. After that, the presence or absence of staining of the dripped portion was confirmed. If the evaluation is ◯, there is no practical problem.
[Evaluation criteria]
○: Less than 10 pinhole stains in a 5 cm square ×: 10 or more pinhole stains in a 5 cm square

[Example 1]
(Preparation of coating solution for coating layer)
Thermoplastic resin (manufactured by Michelman: MICHEM PRIME 498345N
. S), carnauba wax (manufactured by Michaelman: MICHEM LUBE 16
0RPH. S) and kaolin (manufactured by Imerys: Varisurf HX, aspect ratio 95) are prepared so that the solid content mass ratio is 100.0/6.0/10.0 parts, respectively, and the coating for the coating layer I got the liquid.

(Preparation of coating solution for filling layer)
Thermoplastic resin (manufactured by Michelman: MICHEM PRIME 498345N
. S) and kaolin (manufactured by Imerys: Varisurf HX) each at a solid content mass ratio of 100
. It was adjusted to 0/100.0 part to obtain a filling layer coating solution.

(Production of water and oil resistant heat seal paper)
On one side of the paper base material (cup base paper with a basis weight of 200 g/ ^m2 ), the coating solution for the filling layer is coated by a bar blade method so that the coating amount is 8.0 g/ ^m2 in terms of dry weight, and dried. After that, the coating liquid for the coating layer was coated thereon by a bar blade method so that the coating amount was 3.5 g/m ² in terms of dry weight, and dried to obtain a water- and oil-resistant heat seal paper.

[Example 2]
The solid content mass ratio of the thermoplastic resin, wax, and pigment in the coating liquid for the coating layer is 100.0
/10.0/5.0 parts, water and oil resistant heat seal paper was obtained in the same manner as in Example 1.
[Example 3]
The solid content mass ratio of the thermoplastic resin, wax, and pigment in the coating liquid for the coating layer is 100.0
/10.0/10.0 parts, in the same manner as in Example 1, to obtain water and oil resistant heat seal paper.

[Comparative Example 1]
A ^{thermoplastic} resin (Michelin
manufactured by an company: MICHEM PRIME 498345N. S) was coated at a dry weight of 10.
It was coated by a bar blade method so as to be 0 g/m ² and dried to obtain a water- and oil-resistant heat seal paper.
[Comparative Example 2]
Thermoplastic resin (manufactured by Michelman: MICHEM PRI
ME 498345N. A water- and oil-resistant heat seal paper was obtained in the same manner as in Example 1, except that only S) was applied in a dry weight coating amount of 5.0 g/m ² .
[Comparative Example 3]
The solid content mass ratio of the thermoplastic resin, wax, and pigment in the coating liquid for the coating layer is 100.0
/0/20.0 parts, water and oil resistant heat seal paper was obtained in the same manner as in Comparative Example 1.
[Comparative Example 4]
The solid content mass ratio of the thermoplastic resin, wax, and pigment in the coating liquid for the coating layer is 100.0
/0/10.0 parts, water and oil resistant heat seal paper was obtained in the same manner as in Example 1.
[Comparative Example 5]
The solid content mass ratio of the thermoplastic resin, wax, and pigment in the coating liquid for the coating layer is 100.0
A water- and oil-resistant heat seal paper was obtained in the same manner as in Comparative Example 1, except that the ratio was 0/6.0/0.
[Comparative Example 6]
The solid content mass ratio of the thermoplastic resin, wax, and pigment in the coating liquid for the coating layer is 100.0
A water- and oil-resistant heat seal paper was obtained in the same manner as in Example 1, except that the ratio was 0/6.0/0.

The heat-sealable papers obtained in Examples 1 to 3 of the present invention were excellent in blocking resistance. In addition, it was excellent in pinhole resistance, water resistance, and oil resistance.
The heat-sealable papers obtained in Comparative Examples 1 and 2, in which the coating layer was composed only of a thermoplastic resin, caused blocking and were inferior in long-term storage stability. Moreover, the heat-sealable paper obtained in Comparative Example 1 was inferior in pinhole resistance, water resistance, and oil resistance. The heat-sealable papers obtained in Comparative Examples 3 and 4, in which the coating layer did not contain wax, caused blocking and were inferior in long-term storage properties. Moreover, it was inferior in water resistance. The heat-sealable papers obtained in Comparative Examples 5 and 6, in which the coating layer did not contain pigment, did not suffer from blocking, but were inferior in pinhole resistance, water resistance, and oil resistance. In addition, the heat-sealable papers obtained in Comparative Examples 1, 3, and 5, which do not have a filler layer, are superior to the heat-sealed papers obtained in Comparative Examples 2, 4, and 6, which have a filler layer. Although the coating amount of the coating layer was doubled or more, it was inferior in water resistance and oil resistance.

Claims (12)

A coating layer containing a thermoplastic resin, a wax, and an inorganic flat pigment on at least one surface of the paper substrate,
The basis weight of the paper base material is 20 g/m ² or more and 600 g/m ² or less ,
A water- and oil-resistant heat seal paper , wherein the inorganic flat pigment contained in the coating layer is kaolin . (However, 1. to 3. below are excluded.
1. A moisture-proof sheet containing 25 to 100 parts by weight of an inorganic pigment with respect to 100 parts by weight of a moisture-proof main agent, wherein the moisture-proof agent comprises an acrylic synthetic resin, a synthetic rubber latex and a wax emulsion.
2. The paper substrate is unbleached kraft paper with a basis weight of 80 g/m ² or more or bleached kraft paper with a basis weight of 120 g/m ² , and the coating weight of the coating layer is 4 g/m ² or more.
3. X ₁ is the tensile energy absorption in the longitudinal direction of the paper substrate measured in accordance with JIS P 8113:2006, and Y ₁ is the tensile energy absorption in the transverse direction measured in accordance with JIS P 8113:2006. , the longitudinal specific tensile energy absorption measured in accordance with JIS P 8113: 2006 is X ₂ , and the transverse specific tensile energy absorption measured in accordance with JIS P 8113: 2006 is Y ₂ . when the geometric mean of X ₁ and Y ₁ is 120 J/m ² or more, the ratio of X ₁ to Y ₁ (X ₁ /Y ₁ ) is 0.5 or more and 2.0 or less, and X ₂ and Y ₂ whose geometric mean is 2.0 J/g or more. ) A coating layer containing a thermoplastic resin, a wax, and an inorganic flat pigment on at least one surface of the paper substrate,
The basis weight of the paper base material is 20 g/m ² or more and 600 g/m ² or less,
The wax contained in the coating layer is carnauba wax,
A water- and oil-resistant heat seal paper , wherein the inorganic flat pigment contained in the coating layer is kaolin . (However, 1. below is excluded.
1. A moisture-proof sheet containing 25 to 100 parts by weight of an inorganic pigment with respect to 100 parts by weight of a moisture-proof main agent, wherein the moisture-proof agent comprises an acrylic synthetic resin, a synthetic rubber latex and a wax emulsion. ) A coating layer containing a thermoplastic resin, a wax, and an inorganic flat pigment on at least one surface of the paper substrate,
The basis weight of the paper base material is 20 g/m ² or more and 600 g/m ² or less,
The thermoplastic resin contained in the coating layer is an ethylene acrylic acid copolymer resin,
A water- and oil-resistant heat seal paper , wherein the inorganic flat pigment contained in the coating layer is kaolin . (However, 1. below is excluded.
1. A moisture-proof sheet containing 25 to 100 parts by weight of an inorganic pigment with respect to 100 parts by weight of a moisture-proof main agent, wherein the moisture-proof agent comprises an acrylic synthetic resin, a synthetic rubber latex and a wax emulsion. ) 4. The water and oil resistant heat seal paper according to claim 1, wherein the wax contained in the coating layer is carnauba wax. The water and oil resistant heat seal paper according to any one of claims 1, 2 and 4, wherein the thermoplastic resin contained in the coating layer is an ethylene-acrylic acid copolymer resin. The water and oil resistant heat seal paper according to any one of claims 1 to 5, wherein the coating layer contains 3 parts by mass or more of wax with respect to 100 parts by mass of the thermoplastic resin. The water and oil resistant heat seal paper according to any one of claims 1 to 6, wherein the coating layer contains 15 parts by mass or less of an inorganic flat pigment with respect to 100 parts by mass of the thermoplastic resin. The water and oil resistant heat seal paper according to any one of claims 1 to 7, wherein the coating layer contains a thermoplastic resin having a glass transition temperature of 100°C or less. The water and oil resistant heat seal paper according to any one of claims 1 to 8, further comprising a filling layer between the paper substrate and the coating layer. 10. The water and oil resistant heat seal paper according to any one of claims 1 to 9, wherein the mass ratio of wax to inorganic flat pigment (wax:pigment) is 10:90 to 80:20. The ^maximum value of water absorption (Cobb value) measured at a contact time of 1800 seconds is 15 g/m The water and oil resistant heat seal paper according to any one of claims 1 to 10, characterized in that: J. TAPPI No. 41: 2000 "Paper and paperboard - Oil repellency test method - Kit method", the lowest kit number measured at any 5 points on the surface of the oil resistant layer is 6 or more. The water and oil resistant heat seal paper according to any one of claims 1 to 11.