JP2005330609A5 - - Google Patents

Description

Matte coated paper

  The present invention is a matte material that is excellent in white paper gloss, printing gloss, ink inking property, white paper surface feeling (uniformity of minute gloss on coated paper surface) and printing surface feeling (uniformity of minute gloss on printed surface). It relates to coated paper.

  Matte coated paper is widely used mainly for high-quality art printing, catalogs, brochures, calendars and commercial publishing paper. For matte coated paper, a coating solution containing a large amount of a coarse pigment is applied in order to keep the glossiness of the white paper low, and if necessary, a light calender treatment is performed to produce a product. Therefore, the conventional general matte coated paper is inferior in smoothness, printing gloss, ink inking property, blank paper feeling (visual evaluation of uniformity such as gloss on the coated paper surface) and printing feeling (printing) This is insufficient in terms of visual evaluation of uniformity such as surface gloss.

  From such a viewpoint, in order to improve the smoothness of the matte coated paper, it has been proposed to use a delaminated clay as a pigment of the coating layer (see, for example, Patent Documents 1 and 2). In this case, the delaminated clay is a tabular grain formed by peeling the classified fine kaolin into a single layer (delamination), and surface smoothness is improved by performing a smoothing process such as a calendar process. There is an advantage.

However, for coated paper using conventional delaminated clay, it is common to use fine delaminated clay to improve surface smoothness, and low white paper glossiness due to fine delaminated clay. At the expense of On the other hand, in order to satisfy low white paper glossiness, coated paper using a large diameter delaminated clay has been developed at the expense of surface smoothness, but a minute delaminated clay was used. As is the case, the conflicting properties of sufficiently high surface smoothness and low blank gloss are still not fully satisfactory.
JP-A-5-5297

  Accordingly, a main object of the present invention is to provide a technique capable of satisfying the conflicting characteristics of sufficiently high surface smoothness and low blank paper glossiness.

The present invention that has solved the above problems is as follows.
<Claim 1>
A matte coated paper having two coating layers consisting of an undercoat layer and an overcoat layer on at least one side of a base paper,
The overcoat layer contains, as a pigment, 20 to 70 parts by weight of delaminated clay having a volume distribution average particle diameter of 1.5 to 3.0 μm per 100 parts by weight of the pigment,
The undercoat layer does not contain a pigment having a volume distribution average particle size of 1.5 μm or more,
Matte coated paper characterized by that.

(Function and effect)
In the matte coated paper of the present invention, the conflicting properties of sufficiently high surface smoothness and low white paper gloss can be achieved. The reason is probably as follows. That is, in the matte coated paper of the present invention, since the undercoat layer does not contain a pigment of 1.5 μm or more, the paint covers the surface of the base paper so as to evenly fill the unevenness of the base paper, and thus the undercoat layer The surface is smooth and is provided with a topcoat layer containing a delaminated clay having a particle size sufficient to achieve low white paper gloss.

  In this case, by setting the delaminated clay in the overcoat layer to a volume distribution average particle size of 1.5 μm or more, the delaminated clay can be provided on the undercoat layer without being mixed with the pigment to be contained in the undercoat layer. Further, by setting the delaminated clay in the overcoat layer to 3.0 μm or less, moderate smoothness can be obtained without causing excessive surface smoothness of the coating layer. Further, delaminated clays of less than 1.5 μm are expensive, have a wide variation range of average particle diameters, and are difficult to adjust paints, causing problems in operability.

  And by making the volume average particle size of the delaminated clay of the overcoat layer a predetermined size, not only can the white paper gloss be kept low, but also the smoothness of the undercoat layer and the delaminated in the overcoat layer Due to the synergistic action with the flat plate shape of the clay, the tendency of the delaminated clay in the overcoat layer to be oriented in parallel to the surface of the undercoat layer is increased, and the smoothness of the overcoat layer is increased.

  If the particle size of the delaminated clay used in the overcoat layer exceeds 3.0 μm, not only will the surface smoothness of the coating layer be excessively improved, but also surface smoothness unevenness and uniformity of the coating layer will be ensured. It becomes difficult to do.

<Claim 2>
The matte coated paper according to claim 1, wherein the entire coating layer has a thickness of 15 to 50 µm.

(Function and effect)
When the thickness of the coating layer is less than 15 μm, it is difficult to cover the unevenness on the surface of the base paper with the undercoat layer, and the unevenness of the coating layer derived from the base paper generated on the surface of the undercoat layer is produced, thereby improving the smoothness. When it exceeds 50 μm, not only the cost is increased, but the strength of the coating layer is reduced, and the coating layer is peeled off in high-speed printing bookbinding and the like where demand has been dramatically increasing recently. This is not preferable because it causes problems.

<Claim 3>
On the surface having the coating layer, the blank glossiness measured in accordance with JIS P 8142 is 20% or more, the print glossiness is 60% or more, and the smoothness measured in accordance with JIS P 8119 is 60. The matte coated paper according to claim 1 or 2, which is -200 seconds.

(Function and effect)
In matte coated paper of the present invention, since the white paper glossiness is measured according to JIS P 8142 is at least 20% or more, and the printed matter subjected to the overcoat layer and the printing of blank printing process and bookbinding process Even in the situation of rubbing with each other, the printing ink of the printed matter hardly transfers to the overcoat layer on the white paper, and the white paper surface is not stained by the printing ink.

Further, since the printing glossiness is 60% or more , the flatness of the printing surface is extremely high, and even if a situation of rubbing against the white paper surface in the present invention occurs, there is no possibility that the white paper surface is damaged by the printing ink.

  Furthermore, since the smoothness measured in accordance with JIS P 8119 is 60 to 200 seconds, the printing workability is very good even in recent printing speed increases, and high ink acceptability is exhibited. Combined with the delaminated clay, the printability and the strength of the printing ink film can be improved.

  In addition, a so-called high-class feeling can be brought about by having a high printing glossiness and a high smoothness while suppressing the glossiness of the blank paper.

<Claim 4>
The matte coated paper according to any one of claims 1 to 3, wherein a coated surface smoothing treatment comprising an elastic roll and a metal roll is applied to the coating layer.

(Function and effect)
In the present invention, it is preferable to adjust the smoothness of the surface of the coating layer. Even in this case, a sufficiently low blank paper glossiness can be maintained by the above-mentioned characteristic action of the present invention. In particular, super calenders and soft calenders using elastic rolls and chilled rolls with low nips are used to maintain cushioning properties, suppress discoloration and smooth unevenness of the coated surface, which is commonly called calender burn, and allow printing ink to ride. Good matte coated paper can be obtained.

  As described above, according to the present invention, a matte printing coating having a sufficiently high surface smoothness and a low white paper gloss level, and having a matte surface but a high surface smoothness and excellent print glossiness. A craft paper can be obtained.

Hereinafter, embodiments of the present invention will be described in detail.
(Base paper)
As the base paper of the present invention, a paper base or a board base base paper having a basis weight of 30 to 400 g / m ² used for general printing coated paper is used, but the paper making method is not particularly limited and is acidic. Either papermaking or alkaline papermaking may be used. The raw material pulp of the base paper is not particularly limited. Chemical pulp such as known KP, mechanical pulp such as PGW, SGP, RGP, BCTMP, and CTMP, deinked pulp, waste paper pulp, or non-wood pulp derived from kenaf, bamboo, hemp, straw, etc. . These pulps may be used alone or in combination of two or more.

(Undercoat layer)
The undercoat layer of the present invention is not particularly limited, and for example, a general composition comprising a dispersion medium and a pigment can be employed. However, when a pigment is used in the undercoat layer, it should not contain a pigment having a volume distribution average particle size of at least 1.5 μm or more, preferably 1.2 μm or more. Since the undercoat layer does not contain a pigment of 1.5 μm or more, the paint can cover the surface of the base paper so as to evenly fill the unevenness of the base paper. When the pigment particle size exceeds 1.5 μm , The effect of flattening the unevenness of the base paper (more specifically, the effect of flattening the unevenness of the surface of the base paper by the pigment entering between the fine voids due to fiber fibrillation) And the effect on the smoothness of the overcoat layer described later is increased.

The “volume distribution average particle diameter” in the present invention means a value obtained by dividing the total volume of individual pigment particles by the total number of particles. In this specification, a particle size distribution measuring device (Microtrac particle size analyzer: Nikkiso) The volume distribution average particle size (MV) obtained by measurement using a company) is used.
The volume distribution average particle size of this pigment can be calculated based on the following formula:
Volume distribution average particle diameter (MV) = Σ (Vi × di) / ΣVi
However,
Vi = volume ratio in each particle size category di = representative diameter of particle size in each particle size category

  The pigment for the undercoat layer can be used without any particular limitation. For example, engineered clay, calcium carbonate, satin white, titanium oxide, aluminum hydroxide, zinc oxide, barium sulfate, calcium sulfate, silica, activated clay, diatomaceous earth, lake, Known pigments such as laminated clay can be used.

  In particular, engineered clay has a narrow average particle size distribution width and has a porous structure while the pigment is uniformly distributed in the undercoat layer, so that it has the effect of combining the flatness and cushioning properties of the coating layer. .

  The pigment is dispersed in a dispersion medium to form a coating solution, and then applied to the base paper. Examples of the dispersion medium for the undercoat layer include various commonly used adhesives such as styrene / butadiene, styrene / acryl, ethylene / vinyl acetate, butadiene / methyl methacrylate, vinyl acetate / butyl acrylate, and the like. Polymerized and synthetic adhesives such as polyvinyl alcohol, maleic anhydride copolymer, acrylic acid / methyl methacrylate copolymer, oxidized starch, esterified starch, enzyme-modified starch and cold water soluble starch obtained by flash drying them Natural adhesives such as casein and soy protein can be used.

  These adhesives can be used in the range of 5 to 25 parts by weight, more preferably about 6 to 15 parts by weight per 100 parts by weight of the pigment. If it is less than 5 parts by weight, the adhesiveness is poor and a suitable coating layer cannot be formed. On the contrary, if it is 25 parts by weight or more, the glossiness is inferior.

  In the coating liquid for the undercoat layer, various assistants to be blended into ordinary coating paper pigments such as a dispersant, a thickener, a water retention agent, an antifoaming agent, a water resistance agent, a colorant, etc., if necessary. An agent may be contained.

  The solid content concentration of the coating liquid for the undercoat layer is generally 40 to 70% by weight, but preferably 45 to 65% by weight in consideration of the operability of the coating apparatus.

The coating amount of the coating liquid is being applied about 5 to 10 g / m ² by dry weight, and most preferably be adjusted in the range from the surface of the blank quality coated paper obtained in 8~10g / m ² . If it is less than 5 g / m ² , it is difficult to form a decoy coating layer due to the covering property of the base paper, and it becomes difficult to express smoothness due to the influence of the base paper. On the other hand, if it is 10 g / m ² or more, the resulting coated paper will not be strained, and the printability will not be excellent. In addition, the cost increases.

(Overcoat layer)
In the overcoat layer of the present invention, as a pigment, 20 to 70 parts by weight of delaminated clay having a volume distribution average particle size of at least 1.5 to 3.0 μm, preferably 1.5 to 2.0 μm, per 100 parts by weight of pigment. , Preferably 30 to 50 parts by weight. When the particle size of the delaminated clay is smaller than 1.5 μm, the affinity with the undercoat layer is improved, the boundary surface is unclear, and the flatness is improved.

  When the particle size of the delaminated clay exceeds 3.0 μm, the smoothness of the surface tends to be significantly reduced as compared with the case where the particle size is smaller than 1.5 μm. Not only is the surface feel insufficient, but there is also a problem that the printed surface and the blank surface are damaged due to rubbing between printed materials during printing and rubbing between the blank paper surface and the printing surface.

  Also, if the amount used is less than 20 parts by weight, the effect of the delaminated clay is hardly expressed, and if it exceeds 70 parts by weight, the smoothness of the surface is lowered, and the blank surface feeling and the print surface feeling are only insufficient. There is no problem in terms of cost.

  The solid content concentration of the dispersion medium, the various auxiliary agents, and the coating liquid in the topcoat layer can be the same as that of the undercoat layer, but can be appropriately selected depending on the coating equipment.

The coating amount of the coating liquid is about 5 to 50 g / m ² by dry weight, but it is 12 in terms of the blank paper quality feeling of the obtained coated paper, the coating layer strength, the powder fall off during the cutting process, etc. Most preferably, it is adjusted in the range of ˜35 g / m ² . If it is less than 5 g / m ² , it is difficult to operate the coating, a decoy coating layer is difficult to be formed in the covering property of the base paper, and the smoothness is also affected by the formation of the base paper. It becomes difficult to express.

On the other hand, if it is 50 g / m ² or more, the effect of providing an undercoat layer cannot be obtained, the resulting coated paper will not be scratched, and the printability will be reduced. In addition, the cost increases.

(Coating method)
The coating layer of the present invention can be formed by coating the coating liquid on one side or both sides of the base paper. When coating, general coating equipment such as blade coater, air knife coater, roll coater, brush coater, curtain coater, bar coater, gravure coater, size press coater, etc. can be used alone or in combination. it can.

(Coating layer)
In the matte coated paper of the present invention, a coating layer may be provided on one side of the base paper, or a coating layer may be provided on both sides. The thickness of the entire coating layer (that is, the sum of the thickness of the undercoat layer and the thickness of the overcoat layer) is not particularly limited, but is preferably 25 to 50 μm, particularly preferably 30 to 40 μm.

  The thickness of the coating layer referred to in the present invention is such that 10 samples of the coated paper are wound in the lengthwise direction at 100 cm intervals, and a portion of 5 mm and a central portion of 5 mm are optically measured from the end surface of the winding sample mirror surface. A cross-sectional photograph is taken with a microscope, the thickness of the cross-section coating layer at the 5 mm site is arbitrarily measured at 20 points, and the average thickness excluding the maximum and minimum values is referred to.

  In the matte coated paper of the present invention, the white paper glossiness measured in accordance with JIS P 8142 on the surface having the coating layer is preferably 20% or more, and particularly preferably 20 to 26%. The degree is preferably 60% or more, particularly preferably 65 to 85%, and the smoothness measured according to JIS P 8119 is preferably 60 to 200 seconds, particularly preferably 100 to 150 seconds.

(Smoothing process)
In the matte coated paper of the present invention, the surface smoothness can be adjusted by providing a coating layer on the base paper and then subjecting it to a smoothing process such as a super calender, mat calender, or soft calender. . Among these, a mild supercalender treatment is suitable. In this case, the roll pressure of the supercalender can be adjusted so that the smoothness of the coating layer surface is a desired value, for example, in the range of 60 to 200 seconds. . Specifically, the roll pressing condition of the super calendar is adjusted in the range of 100 to 400 kg / cm 2, more preferably 150 to 350 kg / cm 2 in terms of linear pressure. If it is less than 100 kg / cm, suitable smoothness cannot be obtained, and if it exceeds 400 kg / cm, the paper thickness becomes thin, the opacity is lowered, and the high-grade feeling is lowered. In addition, fiber burn occurs. The roll temperature of the super calender is preferably processed in the range of 50 to 95 ° C. in order to stabilize the quality. If it is less than 50 degreeC, a suitable coating layer is not formed. If it exceeds 95 degrees, fiber scorch occurs.

<Adjustment of coating amount>
-Topcoat coating layer 16 parts of carboxy-modified styrene-butadiene latex, 54 parts of heavy calcium carbonate, 10 parts of kaolin and the delaminated clay described in Table 1 were blended as an adhesive to prepare a topcoat coating layer.
・ Undercoat coating layer As the upper layer, the gate roll was prepared by adjusting the undercoat layer under the conditions shown in Table 1 except that 16 parts of carboxy-modified styrene / butadiene latex and 86 parts of light calcium carbonate were used. An undercoat layer was provided by a coater.
<Base paper>
High-quality paper having a basis weight of 54 g / m ² was used.

As is apparent from the results, each sample according to the present invention has both a low blank glossiness and a high smoothness. Each evaluation method was as follows.
“Smoothness” (upper layer / lower layer): Measured according to JIS P 8119.
“Opacity”: Measured according to JIS P 8138.
“Blank Gloss”: 75 ° gloss was measured using a gloss meter manufactured by Murakami Color Research Laboratory according to JIS P 8142 method.
“Rubbing stains”: The print surface and the blank paper surface before printing were brought into contact with each other with a constant pressure and rubbed together, and then judged by the degree of stain on the blank paper surface. ○: Dirt is not seen. Δ: Slight dirt is seen. X: Dirt has arisen.
“Dry pick”: Using an RI printing tester (manufactured by Meisei Seisakusho), printing is performed with 0.4 cc of printing ink (tack 18), the picking state appearing on the rubber roll is transferred to another mount, and visually Five grades were evaluated. (The higher the number, the better)
“Wet pick”: An RI printing tester (manufactured by Meisei Seisakusho) was used, the surface of the coating layer was wetted with a water-absorbing roll, printing was performed, and the ink acceptability was visually evaluated in five stages. (The higher the number, the better)
“Print gloss”: Using an RI printing tester (manufactured by Meisei Seisakusho), printing once or twice with Toyo Ink TK Mark V New Red M, and leaving it at 20 ° C. and 65% RH for 24 hours, The 75-degree printing gloss was measured according to JIS P 8142 method.
"Ink fillability": Printing using a RI printing tester (Meiji Seisakusho), printing on the coating layer surface with 0.1 cc of offset printing ink and leaving it at 20 ° C and 65% RH for 24 hours The surface ink unevenness was visually determined according to the following criteria.
◯: Excellent ink deposition property and no uneven ink deposition.
Δ: Ink unevenness is observed.
X: Ink is markedly bad.

  The present invention can be applied to a wide range of uses such as commercial printing represented by gravure printing and offset printing.

Claims (4)

A matte coated paper having two coating layers consisting of an undercoat layer and an overcoat layer on at least one side of a base paper,
The overcoat layer contains, as a pigment, 20 to 70 parts by weight of delaminated clay having a volume distribution average particle diameter of 1.5 to 3.0 μm per 100 parts by weight of the pigment,
The undercoat layer does not contain a pigment having a volume distribution average particle size of 1.5 μm or more,
Matte coated paper characterized by that.   The matte coated paper according to claim 1, wherein the entire coating layer has a thickness of 15 to 50 µm.   On the surface having the coating layer, the blank glossiness measured in accordance with JIS P 8142 is 20% or more, the print glossiness is 60% or more, and the smoothness measured in accordance with JIS P 8119 is 60. The matte coated paper according to claim 1 or 2, which is -200 seconds.   The matte coated paper according to any one of claims 1 to 3, wherein the coated layer is subjected to a coated surface smoothing treatment comprising an elastic roll and a metal roll.