JP2021011529A - Sheet and manufacturing method of sheet - Google Patents

Abstract

To provide a sheet having suppressed unevenness.SOLUTION: A sheet (100) according to the present invention contains a resin (10), inorganic particles (20) and an inorganic additive (30). The inorganic particles (20) are dispersed in the resin (10). The inorganic additive (30) is dispersed in the resin (10). A content of the inorganic particles (20) to the sheet (100) is 35 mass% or larger and smaller than 50 mass%. The content of the inorganic particles (20) contains at least one of calcium carbonate particles and talc particles. A content of the inorganic particles (30) relative to the sheet (100) is 1 mass% or larger and 30 mass% or smaller. The inorganic additive (30) contains titanium oxide particles. A total content of the inorganic particles (20) and the inorganic additive (30) to the sheet (100) is 50 mass% or larger and 80 mass% or smaller.SELECTED DRAWING: Figure 1

Description

The present invention relates to a sheet and a method for producing the sheet.

Since ancient times, paper containing plant fibers has been used for various purposes. For example, paper is used not only as a base material on which characters and pictures are written, but also as a bag or container for putting things inside.

On the other hand, in recent years, from the viewpoint of forest protection, it has been studied to use a sheet containing a resin and an inorganic substance instead of paper having plant fibers. Unlike paper, such sheets are resistant to water, and even if they get wet, their strength hardly decreases.

For example, it is known that a thin film is formed by using calcium carbonate powder instead of pulp fiber (Patent Document 1). Patent Document 1 describes that a plastic material can be used for a wide range of purposes by using a thin film material for processing containing a plastic resin and calcium carbonate powder at a ratio of 18:82 to 50:50.

Patent No. 6095694

However, in the thin film material for processing described in Patent Document 1, the color of the thin film may not be uniform and unevenness may occur.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a sheet in which unevenness is suppressed and a method for producing the sheet.

The sheet according to the present invention contains a resin, inorganic particles, and an inorganic additive. The inorganic particles are dispersed in the resin. The inorganic additive is dispersed in the resin. The content of the inorganic particles in the sheet is 35% by mass or more and less than 50% by mass. The inorganic particles include at least one of calcium carbonate particles and talc particles. The content of the inorganic additive in the sheet is 1% by mass or more and 30% by mass or less. The inorganic additive contains titanium oxide particles. The total content of the inorganic particles and the inorganic additive with respect to the sheet is 50% by mass or more and 80% by mass or less.

In certain embodiments, the total content of the inorganic particles and the inorganic additives in the sheet is 50% by mass or more and 70% by mass or less.

In certain embodiments, the calcium carbonate particles have a purity of 90% or higher.

In certain embodiments, the calcium carbonate particles have a purity of 98% or higher.

In certain embodiments, the average particle size of the inorganic particles is 15 μm or less.

In certain embodiments, the resin comprises a thermoplastic resin.

The method for producing a sheet according to the present invention includes a step of forming a kneaded product obtained by melt-kneading a resin, inorganic particles and an inorganic additive, and molding the kneaded product to form a sheet. The content of the inorganic particles in the sheet is 35% by mass or more and less than 50% by mass. The inorganic particles include at least one of calcium carbonate particles and talc particles. The content of the inorganic additive in the sheet is 1% by mass or more and 30% by mass or less. The inorganic additive contains titanium oxide particles. The total content of the inorganic particles and the inorganic additive with respect to the sheet is 50% by mass or more and 80% by mass or less.

According to the present invention, it is possible to provide a sheet in which unevenness is suppressed.

It is a schematic diagram of the embodiment of the sheet by this invention. It is a figure which shows the SEM image of the sheet of this embodiment. It is a figure which shows the SEM image of the reference sheet.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding parts are designated by the same reference numerals and the description is not repeated.

Hereinafter, embodiments of the sheet 100 according to the present invention will be described with reference to FIG. The sheet 100 is in the form of a thin film. The thickness of the sheet 100 is 1 μm or more and 5000 μm or less.

The sheet 100 contains the resin 10, the inorganic particles 20, and the inorganic additive 30. The inorganic particles 20 are dispersed in the resin 10. Further, the inorganic additive 30 is dispersed in the resin 10.

[Resin 10]
The resin 10 contains a thermoplastic resin. The resin 10 contains, for example, a polyolefin resin, an acrylonitrile butadiene styrene resin (ABS resin), a polyamide resin, a polystyrene resin, a polyester resin, or any mixture thereof as the thermoplastic resin.

For example, the polyolefin resin preferably contains a polyethylene resin and / or a polypropylene resin. As an example, the resin 10 contains a polyethylene resin. For example, the polyethylene resin is any one of high density polyethylene (HDPE), low density polyethylene (LDPE), medium density polyethylene, and linear low density polyethylene (L-LDPE). The resin 10 preferably contains a mixed polyethylene resin in which polyethylene resins having different densities are mixed.

For example, the resin 10 is a polyolefin resin obtained from a mixture of two or more of high-density polyethylene (HDPE), low-density polyethylene (LDPE), medium-density polyethylene, linear low-density polyethylene (L-LDPE), and polypropylene. It may be included. It is preferable that at least 50% by mass of the resin 10 is a polyethylene resin. By using the polyethylene resin in such a ratio, the molding process can be satisfactorily performed in a wide temperature range of 150 to 200 ° C.

For example, mixing high-density polyethylene and linear low-density polyethylene is preferable because both high-strength of high-density polyethylene and moldability of linear low-density polyethylene can be achieved at the same time. The linear low-density polyethylene is preferably 50% by mass or less of the polyethylene resin. Alternatively, the resin 10 may contain a polyethylene terephthalate resin (PET) or a polybutylene terephthalate resin (PBT) as the polyester resin. Alternatively, the resin 10 may contain a bioplastic (biomass plastic).

The content of the resin 10 with respect to the sheet 100 is 20% by mass or more and 50% by mass or less.

[Inorganic particles 20]
The inorganic particles 20 include at least one of calcium carbonate particles and talc particles. The content of the inorganic particles 20 with respect to the sheet 100 is 35% by mass or more and less than 50% by mass. The content of the inorganic particles 20 with respect to the sheet 100 is more preferably 40% by mass or more and less than 49% by mass, and further preferably 42% by mass or more and less than 48% by mass.

In the sheet 100, the content of the inorganic particles 20 is larger than the content of the inorganic additive 30. The sheet 100 can be whitened by containing at least one of calcium carbonate particles and talc particles as the inorganic particles 20. However, various pigments may be added to the sheet 100. Alternatively, the sheet 100 may be printed in various colors with ink or toner.

Since the inorganic particles 20 contain calcium carbonate particles, the sheet 100 can be made white at low cost. Further, since the inorganic particles 20 contain calcium carbonate particles, the sheet 100 can be imparted with antibacterial and antifungal properties. Further, since the inorganic particles 20 contain talc particles, processability can be improved.

For example, the inorganic particles 20 may be composed of only calcium carbonate particles. In this case, the content of the calcium carbonate particles with respect to the sheet 100 is 35% by mass or more and less than 50% by mass.

Calcium carbonate particles are particles containing calcium carbonate as a main component. The purity of the calcium carbonate particles is preferably 90% or more. In this case, the calcium carbonate component of the calcium carbonate particles is 90% by mass or more. When the calcium carbonate particles contain impurities, the impurities include iron, manganese, silicon, aluminum and the like. Further, the purity of calcium carbonate is preferably 98% or more. As the calcium carbonate particles having a purity of 98% or more, those recognized as food additives can be used.

The calcium carbonate particles may be derived from natural calcium carbonate. Alternatively, the calcium carbonate particles may be synthetic calcium carbonate produced by a chemical reaction.

Calcium carbonate particles are formed by crushing bulk calcium carbonate. The average particle size of the calcium carbonate particles is preferably 15 μm or less, more preferably 10 μm or less, further preferably 5 μm or less, and particularly preferably 2 μm or less. The average particle size of the calcium carbonate particles is, for example, 50% volume particle size D ₅₀ . The volume particle size D ₅₀ is measured using a laser scattering type particle size distribution measuring device.

The calcium carbonate particles are preferably in the shape of konpeito. In this case, the calcium carbonate particles are preferably dispersed in the resin 10. However, the calcium carbonate particles may have other shapes. For example, the calcium carbonate particles may have a spindle shape, a cubic shape, or an indefinite shape. Alternatively, the calcium carbonate particles may be a mixture of these shapes.

Alternatively, the inorganic particles 20 may be composed of only talc particles. In this case, the content of talc particles with respect to the sheet 100 is 35% by mass or more and less than 50% by mass.

Talc particles are particles containing magnesium hydroxide and silicate as main components. The composition of talc is represented by Mg ₃ SiO ₄ OH ₁₀ (OH) ₂ . The inorganic particles 20 preferably contain talc particles having a purity of 90% or more. In this case, the talc component of the talc particles is 90% by mass or more. For example, the purity of talc is preferably 98% or more.

Alternatively, the inorganic particles 20 may be composed of both calcium carbonate particles and talc particles. In this case, the total content of the calcium carbonate particles and the talc particles with respect to the sheet 100 is 35% by mass or more and less than 50% by mass.

In addition, in this specification, the content of calcium carbonate particles and / or talc particles means the net content of calcium carbonate particles and / or talc particles. If the purity of the commercially available calcium carbonate and / or talc is low, the calcium carbonate and / or talc contains many impurities, and the content of the net calcium carbonate particles and / or talc particles is the commercially available calcium carbonate. Less than the content of calcium and / or talc. Here, the content of the net calcium carbonate particles and / or talc particles with respect to the sheet 100 is 35% by mass or more and less than 50% by mass. For example, when calcium carbonate having a purity of 70% occupies 50 parts by mass in 100 parts by mass of the sheet, the content of calcium carbonate particles with respect to the sheet 100 is 35% by mass.

[Inorganic additive 30]
The content of the inorganic additive 30 with respect to the sheet 100 is 1% by mass or more and 30% by mass or less. The content of the inorganic additive 30 with respect to the sheet 100 is preferably 5% by mass or more and 15% by mass or less, and more preferably 3% by mass or more and 13% by mass or less. The inorganic additive 30 contains titanium oxide particles.

Since the inorganic additive 30 contains titanium oxide particles, the resin 10, the inorganic particles 20, and the inorganic additive 30 can be appropriately kneaded. Further, since the inorganic additive 30 contains titanium oxide particles, the light incident on the sheet 100 can be diffusely reflected, and the sheet 100 can be made to appear white.

The inorganic additive 30 may contain particles other than titanium oxide particles. The inorganic additive 30 may contain a coupling agent, a lubricant, a dispersant, an antistatic agent, an antioxidant, a heat stabilizer and the like. The inorganic additive 30 preferably contains an antistatic agent. For example, as the antistatic agent, a fatty acid ester of glycerin, an alkylamine, an ethylene oxide adduct of an alkylamine, and a fatty acid ester thereof can be used.

Alternatively, the inorganic additive 30 includes calcium sulfate, barium sulfate, kaolin, mica, zinc oxide, dolomite, glass fiber, hollow glass microbeads, silica, chalk, pigment, silicon dioxide, bentonite, clay, in addition to titanium oxide particles. It may contain particles such as diatomaceous earth.

In the sheet 100 of the present embodiment, the inorganic particles 20 contain at least one of calcium carbonate particles and talc particles, and the inorganic additive 30 contains titanium oxide particles. The total content of the inorganic particles 20 and the inorganic additive 30 with respect to the sheet 100 is 50% by mass or more and 80% by mass or less. When the total content of the inorganic particles 20 and the inorganic additive 30 is 50% by mass or more, it is possible to prevent the sheet 100 from becoming an industrial waste. When the sheet 100 is mass-produced, the total content of the inorganic particles 20 and the inorganic additive 30 may be 51% by mass or 52% by mass in consideration of a margin. Further, when the total content of the inorganic particles 20 and the inorganic additive 30 with respect to the sheet 100 is 80% or less, the sheet 100 can be manufactured by injection molding. In order to further improve the yield of the sheet 100, it is more preferable that the total content of the inorganic particles 20 and the inorganic additive 30 with respect to the sheet 100 is 70% or less.

Further, the content of the resin 10 with respect to the sheet 100 is preferably less than 50% by mass. When the mass ratio of the resin 10 is less than 50%, the amount of the resin 10 used can be relatively small, and the burden on the environment can be reduced.

Calcium carbonate can adsorb sulfur dioxide gas. Therefore, the content of calcium carbonate with respect to the sheet 100 is preferably 20% by mass or more, and more preferably 25% by mass or more. In particular, the total content of the inorganic particles 20 and the inorganic additive 30 with respect to the sheet 100 is 50% by mass or more, and the content of the calcium carbonate particles in the inorganic particles 20 is the content of the inorganic particles 20 and the inorganic additive 30. It is preferably 50% by mass or more of the amount. As a result, the sheet 100 can be treated as a neutralizing agent instead of industrial waste at the time of disposal.

When the sheet 100 is relatively thick, it is preferable that the content of the inorganic particles 20 in the sheet 100 is relatively large and the content of the inorganic additive 30 in the sheet 100 is relatively small. For example, when the thickness of the sheet 100 is 500 μm or more, the content of the inorganic particles 20 with respect to the sheet 100 is preferably 40% by mass or less and less than 50% by mass, and 45% by mass or less and 48% by mass or less. Is even more preferable. The content of the inorganic additive 30 in the sheet 100 is preferably 5% by mass or more, and more preferably 10% by mass or more.

On the other hand, when the sheet 100 is relatively thin, it is preferable that the content of the inorganic particles 20 in the sheet 100 is relatively small and the content of the inorganic additive 30 in the sheet 100 is relatively large. For example, when the thickness of the sheet 100 is 200 μm or less, the content of the inorganic particles 20 with respect to the sheet 100 is preferably 35% by mass or less and 45% by mass or less, and 37% by mass or less and 40% by mass or less. Is even more preferable. The content of the inorganic additive 30 in the sheet 100 is preferably 5% by mass or more, and more preferably 10% by mass or more.

In the sheet 100 of the present embodiment, the content of the inorganic particles 20 composed of calcium carbonate particles and / or talc particles with respect to the sheet 100 does not exceed 50% by mass. Since the number of the inorganic particles 20 is relatively small as described above, the inorganic particles 20 are sufficiently dispersed in the resin 10, and as a result, unevenness of the sheet 100 can be suppressed. For example, if the sheet 100 does not contain a colorant or pigment, the sheet 100 is white. Since the content of the inorganic particles 20 with respect to the sheet 100 does not exceed 50% by mass, unevenness in white color of the sheet 100 can be suppressed.

Further, since the number of the inorganic particles 20 is relatively small as described above, the unevenness of the sheet 100 can be reduced. Therefore, even when the offset printing machine prints a large amount of such sheets 100, damage to the blanket of the offset printing machine can be avoided.

For example, the total of the content of calcium carbonate particles and / or talc particles as the inorganic particles 20 and the content of titanium oxide as the inorganic additive 30 with respect to the sheet 100 is 50% by mass or more and 80% by mass or less. Is preferable.

Even if the sheet 100 of the present embodiment adheres to water, its strength is unlikely to decrease. Further, the sheet 100 of the present embodiment has antibacterial properties, and even if food or the like adheres to the sheet 100, the generation of mold can be suppressed. Further, the sheet 100 of the present embodiment exhibits high tensile strength and tear strength, and can suppress the occurrence of breakage. It is considered that this is because the components in the sheet 100 are sufficiently mixed in the sheet 100 of the present embodiment.

FIG. 2 is a diagram showing an SEM image of the sheet 100 of the present embodiment magnified 2000 times. Here, the inorganic particles 20 are less than 50% by mass, and the total of the inorganic particles 20 and the inorganic additive 30 is more than 50% by mass. As shown in FIG. 2, in the sheet 100 of the present embodiment, the components are sufficiently dispersed in the sheet 100.

FIG. 3 is a diagram showing an SEM image of the reference sheet magnified 2000 times. In the reference sheet, the inorganic particles exceed 50% by mass. As shown in FIG. 3, in the reference sheet, the components are not sufficiently dispersed in the sheet, and specific components are unevenly present.

As described above, in the sheet 100 of the present embodiment, the inorganic particles 20 are less than 50% by mass, and the total of the inorganic particles 20 and the inorganic additive 30 is more than 50% by mass, so that the components in the sheet 100 are contained. Can be sufficiently dispersed. Therefore, the sheet 100 exhibits high tensile strength and tear strength, and can suppress the occurrence of breakage.

The sheet 100 described above with reference to FIG. 1 is suitably used for bags, corrugated cardboard, cases, daily necessities and the like. For example, the bag may be a handbag, a fashion bag, or a plastic shopping bag. Further, the sheet 100 may be a printing sheet or a film sheet, or may be used as a wrapping paper. Alternatively, the sheet 100 may be used as an agricultural sheet. The sheet 100 may be used as a string formed by cutting the sheet. The string is used, for example, as an agricultural binding string or an incentive string. Further, the daily necessities may be, for example, a cutlery set or a hanger. Alternatively, the sheet 100 may be used as a bottle or protective cap.

Although the sheet 100 described above with reference to FIG. 1 has a single-layer structure, the present embodiment is not limited to this. For example, the sheet 100 may be used in combination with other layers. As an example, the sheet 100 may be laminated with another mixed layer having a lower content of calcium carbonate particles than the sheet 100. Alternatively, the sheet 100 may be laminated with a resin layer containing no calcium carbonate particles.

The particle size of the inorganic particles 20 in the resin 10 is preferably uniform. Similarly, the particle size of the inorganic additive 30 in the resin 10 is preferably uniform.

Since the particle sizes of the inorganic particles 20 and the inorganic additive 30 are uniform, it is possible to prevent a part of the inorganic particles 20 and the inorganic additive 30 from protruding from the surface of the sheet 100, so that the thickness of the sheet 100 is uneven. Can be reduced. Therefore, it is possible to suppress printing unevenness when printing on the sheet-shaped sheet 100 and reduce damage to the printing apparatus.

Further, it is preferable that the inorganic particles 20 and the inorganic additive 30 are uniformly dispersed in the resin 10. For example, by melt-kneading the resin 10 and the inorganic particles 20 together with the inorganic additive 30, the inorganic particles 20 and the inorganic additive 30 can be sufficiently dispersed in the resin 10.

[Manufacturing method of sheet 100]
The sheet 100 of this embodiment is manufactured as follows. The method for producing the sheet 100 according to the present embodiment includes a step of forming a kneaded product of the resin 10, the inorganic particles 20, and the inorganic additive 30 and molding the kneaded product.

Resin 10 is prepared. The resin 10 contains a thermoplastic resin. The resin 10 contains, for example, a polyolefin resin, an acrylonitrile butadiene styrene resin (ABS resin), a polyamide resin, a polystyrene resin, a polyester resin, or any mixture thereof as the thermoplastic resin.

The resin 10 is preferably in the form of pellets. For example, the resin 10 is a plurality of granules having a diameter of 1 mm or more and 10 mm or less.

Further, the resin 10 is preferably melted at a relatively low temperature. For example, the glass temperature of the resin 10 is preferably 200 ° C. or lower.

In addition, the inorganic particles 20 are prepared. The inorganic particles 20 include at least one of calcium carbonate particles and talc particles. The purity of the inorganic particles 20 is preferably high. The purity of the inorganic particles 20 is preferably 90% or more.

The inorganic particles 20 are preferably powder. For example, the average particle size of the inorganic particles 20 is 15 μm or less. The inorganic particles 20 may be formed by pulverizing a bulk-like inorganic substance.

In addition, the inorganic additive 30 is prepared. The inorganic additive 30 is preferably a powder. The inorganic additive 30 contains titanium oxide particles. The purity of the inorganic additive 30 is preferably high. The purity of the inorganic additive 30 is preferably 90% or more. The inorganic additive 30 may be formed by pulverizing a bulk-like inorganic substance.

The resin 10, the inorganic particles 20, and the inorganic additive 30 are melt-kneaded to form a kneaded product of the resin 10, the inorganic particles 20, and the inorganic additive 30. For example, melt kneading is performed at a temperature of 150 ° C. or higher and 250 ° C. or lower. The melt kneading is preferably carried out at a temperature of 175 ° C. or higher and 225 ° C. or lower. The kneading is performed by, for example, a twin-screw kneader.

The total mass of the inorganic particles 20 and the inorganic additive 30 is preferably larger than the mass of the resin 10. For example, when the total amount of the resin 10, the inorganic particles 20 and the inorganic additive 30 is 100 parts by mass, the inorganic particles 20 and the inorganic additive 30 are preferably 50 parts by mass or more and 80 parts by mass or less, and the resin 10 is 20 parts by mass. It is preferably parts by mass or more and 50 parts by mass or less.

After melt kneading, the kneaded product is preferably made into chips. For example, the kneaded product may be chipped into a plurality of granules having a diameter of 1 mm or more and 10 mm or less.

Next, the kneaded product is molded. Typically, the sheet 100 is formed by molding the kneaded product. For example, the molding may be injection molding or melt extrusion molding. In addition, melt extrusion includes inflation molding, T-die molding, coextrusion molding and blow molding.

Further, the sheet 100 may be formed into a sheet shape or a film shape by molding the kneaded product. Alternatively, the sheet 100 may be formed in a bottle shape.

In the step of forming the sheet, the formed kneaded product may be used as a masterbatch, and additional pellets may be added. Thereby, the composition component and the composition ratio of the sheet 100 to be the final product can be adjusted in a timely manner.

The sheet may be prepared from two types of master batches. For example, a masterbatch of a thermoplastic resin and inorganic particles is prepared as a first masterbatch, and a masterbatch of a thermoplastic resin and an inorganic additive is prepared as a second masterbatch, and a first masterbatch and a second masterbatch are prepared. You may make a sheet using.

[Thermoplastic resin]
Low density polyethylene (SP1520: MFR2.0: density 0.913 g / m ³ manufactured by Prime Polymer Co., Ltd.) was used as the thermoplastic resin. The low-density polyethylene was a linear polyethylene in which ethylene and hexene were copolymerized by a vapor phase polymerization method mediated by a metallocene catalyst.

[Inorganic particles]
Calcium carbonate particles were used as the inorganic particles. The calcium carbonate particles had a konpeito shape, a purity of 98%, and an average particle size of 2 μm.

[Inorganic additive]
Titanium oxide particles (LF-1060 manufactured by DIC Corporation (60% titanium oxide, 20MFR, 1.7D)) were used as the inorganic additive.

[Sheet preparation]
First, a thermoplastic resin, inorganic particles and an inorganic additive were mixed. A sheet having a thickness of 80 μm was prepared with a T-die (effective die width 1000 mm: molding temperature 220 ° C.) using a single extruder (manufactured by PLACO Co., Ltd .: extrusion diameter 65 mmφ: L / D = 28, effective die width 1000 mm).

[Formulation of Examples]
In Example 1, a sheet was prepared by mixing the thermoplastic resin, the inorganic particles and the inorganic additive so that the ratio of the amounts of the thermoplastic resin, the inorganic particles and the inorganic additive was 49:50: 1. In Example 2, a sheet was prepared by mixing the thermoplastic resin, the inorganic particles and the inorganic additive so that the ratio of the amounts of the thermoplastic resin, the inorganic particles and the inorganic additive was 45:35:20. In Example 3, a sheet was prepared by mixing the thermoplastic resin, the inorganic particles and the inorganic additive so that the ratio of the amounts of the thermoplastic resin, the inorganic particles and the inorganic additive was 20:50:30.

[Comparison of comparative examples]
In Comparative Example 1, a sheet was prepared by mixing the thermoplastic resin, the inorganic particles and the inorganic additive so that the ratio of the amounts of the thermoplastic resin, the inorganic particles and the inorganic additive was 30:50: 1. In Comparative Example 2, a sheet was prepared by mixing the thermoplastic resin and the inorganic particles so that the ratio of the amounts of the thermoplastic resin and the inorganic particles was 30:70. In Comparative Example 3, a sheet was prepared by mixing the thermoplastic resin and the inorganic particles so that the ratio of the amounts of the thermoplastic resin and the inorganic particles was 40:60.

[Evaluation]
The dispersibility of the components in the sheets was confirmed by holding the sheets of Examples 1 to 3 and Comparative Examples 1 to 3 over. In addition, the sheets of Examples 1 to 3 and Comparative Examples 1 to 3 were pulled with both hands.

The table below also shows the component ratios and evaluation results of the sheets of Examples 1 to 3 and Comparative Examples 1 to 3.

In the table, when the dispersibility of the components in the sheet was confirmed by holding the sheet over, those in which uneven dispersion was confirmed are indicated by x, and those in which the uneven dispersion was not confirmed are indicated by 〇. In the table, when the sheet is lightly pulled by hand, the one that is torn is indicated by x, and the one that is not torn is indicated by 〇.

When the sheets of Examples 1 to 3 and Comparative Examples 1 to 3 were held over, uneven dispersion was confirmed in the sheets of Comparative Examples 1 to 3, but no uneven dispersion was confirmed in the sheets of Examples 1 to 3. It was.

Further, when the sheets of Examples 1 to 3 and Comparative Examples 1 to 3 were pulled, the sheets of Comparative Examples 1 to 3 were torn, but the sheets of Examples 1 to 3 were not torn.

The embodiments of the present invention have been described above with reference to the drawings. However, the present invention is not limited to the above-described embodiment, and can be implemented in various aspects without departing from the gist thereof. In addition, the plurality of components disclosed in the above-described embodiment can be appropriately modified. For example, one component of all the components shown in one embodiment may be added to another component of another embodiment, or all components shown in one embodiment may be implemented. It may be deleted from the form.

In addition, the drawings are schematically shown mainly for each component in order to facilitate understanding of the invention, and the thickness, length, number, spacing, etc. of each of the illustrated components are shown in the drawings. It may be different from the actual one for the convenience of. Further, the configuration of each component shown in the above embodiment is an example and is not particularly limited, and it goes without saying that various changes can be made without substantially deviating from the effect of the present invention. ..

According to the present invention, it is possible to provide a sheet in which unevenness is suppressed.

10 Resin 20 Inorganic particles 30 Inorganic additives 100 Sheets

Claims (7)

With resin
Inorganic particles dispersed in the resin and
A sheet containing an inorganic additive dispersed in the resin.
The content of the inorganic particles is 35% by mass or more and less than 50% by mass with respect to the sheet.
The inorganic particles contain at least one of calcium carbonate particles and talc particles.
The content of the inorganic additive is 1% by mass or more and 30% by mass or less with respect to the sheet.
The inorganic additive contains titanium oxide particles and contains
The total content of the inorganic particles and the inorganic additive with respect to the sheet is 50% by mass or more and 80% by mass or less. The sheet according to claim 1, wherein the total content of the inorganic particles and the inorganic additive with respect to the sheet is 50% by mass or more and 70% by mass or less. The sheet according to claim 1 or 2, wherein the calcium carbonate particles have a purity of 90% or more. The sheet according to claim 2, wherein the calcium carbonate particles have a purity of 98% or more. The sheet according to any one of claims 1 to 4, wherein the average particle size of the inorganic particles is 15 μm or less. The sheet according to any one of claims 1 to 5, wherein the resin contains a thermoplastic resin. A method for producing a sheet, which comprises a step of forming a kneaded product obtained by melt-kneading a resin, inorganic particles and an inorganic additive, and forming the kneaded product to form a sheet.
In the step of forming the sheet,
The content of the inorganic particles with respect to the sheet is 35% by mass or more and less than 50% by mass.
The inorganic particles contain at least one of calcium carbonate particles and talc particles.
The content of the inorganic additive in the sheet is 1% by mass or more and 30% by mass or less.
The inorganic additive contains titanium oxide particles and contains
A method for producing a sheet, wherein the total content of the inorganic particles and the inorganic additive with respect to the sheet is 50% by mass or more and 80% by mass or less.