JP2007002344A - Newspaper-printing paper for cold offset printing - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a newspaper-printing paper used for a cold offset printing, without forming soil in a printing process and excellent in finished print in a high quality multi-colored printing such as a highly brilliant printing, highly colored printing, etc., by using a cold-offset type rotary printing press. <P>SOLUTION: This offset-printing paper produced by applying a surface-treating agent containing starch and latex as binders and calcium carbonate and kaolinite as pigments over at least one side surface of a stock paper so as to become ≤1.4 g/m<SP>2</SP>per one side surface and drying is provided by having ≥55% whiteness, ≥90% opacity after the printing and 0.50-0.65 dynamic frictional coefficient, and containing the pigments by (50:50) to (90:10) range mass ratio of the calcium carbonate to the kaolinite. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

It is an object of the present invention to provide newspaper printing paper that is free from stains in the printing process and has excellent print finish in high-quality multicolor printing such as high-definition printing and high-color printing using a cold offset printing press. is there.

In recent years, newspaper printing using cold-set offset rotary presses has been rapidly offset, colorized, and speeded up, and has better color printing suitability and printing workability for newspapers that serve as printing media. There is a need for newsprint.
In addition, color images such as newspaper advertisements are required to have higher reproducibility. Although the progress of the printing plate manufacturing process and the sharpness of the original image are remarkable, the color and sharpness of the color printed under normal newsprint conditions are significantly inferior to those of ordinary coated paper for printing. , Lacking in appealing power.

Recently, in order to improve the reproducibility of the color image of this newsprint, technological development relating to high-definition printing that minimizes halftone dots (dots) representing the image has been advanced. However, when high-definition printing is performed on printing paper with poor surface properties, the minimized halftone dots are not reflected on the printing paper (missing), causing a problem in image reproducibility.

Also, coated paper made by coating and drying about 8 g / m ² or more on the base paper with a pigment and binder coating dry mass has good surface properties and is suitable for high-quality printing. Uses a printing press with a heat-setting device and oxidative polymerization drying ink, and the ink drying system is different from cold offset printing press and newspaper printing using penetrating drying ink. If the paper is printed on a newspaper rotary press, it may cause troubles related to the printing surface quality and printing workability such as set-off defects and scumming stains, and it cannot be used in practice.

Japanese Laid-Open Patent Publication No. 1-174697 (Patent Document 1) describes a newspaper printing paper provided with a coating layer containing a pigment having an oil absorption of 65 cc / 100 g or more. However, a coating layer containing a pigment having a high oil absorption tends to have a weak surface strength in a wet state, and is likely to cause pigment piling on a blanket of a printing press. Further, since a large amount of printing ink is transferred, the amount of printing ink increases, and in color printing, the ink setting becomes slow, and stickiness may occur. JP-A-4-57988 (Patent Document 2) defines the dynamic wetting value of a base paper, and by using kaolin and an irregular pigment with an average particle size in combination, ink set suitability and ink concentration However, even if this method is used, the color setting may cause the ink set to be slow and cause a sticky problem.
JP-A-2000-34694, JP-A-2001-164494, and JP-A-2000-314097 (Patent Document 3.4.5) are coated with satin white, hydrated silicic acid, or a hollow organic pigment, and are white. Has disclosed the effect of improving the degree of opacity, but the bond strength with the adhesive is weak and blanket piling deteriorates, so an increase in the adhesive ratio is required, resulting in a small effect on opacity. In addition, it is not preferable in terms of cost. JP-A-H02-19595 and JP-A-H02-74698 (Patent Document 6.7) disclose newspaper coated paper using a specific latex and a water-soluble polymer as a binder and an organic pigment as a pigment. However, the effect of improving opacity is small due to the large amount of binder. The organic pigment contributes to improving the white paper opacity, but its contribution to the post-printing opacity is low due to poor ink absorbability. Further, if it exists on the outermost surface of the paper, wrinkles may occur at a place where friction of the fixed roll or the fixed sensor occurs.

From the above situation, in cold set type high-speed rotary printing using penetrable ink, the ink setting property is good, the printing workability is excellent, the whiteness is high, and the color in color multicolor printing There has been a strong demand for offset printing paper, particularly newsprint printing paper, which has good reproducibility and sharp printability.
Japanese Patent Laid-Open No. 1-174697 Japanese Patent Laid-Open No. 4-57988 JP 2000-34694 A JP 2001-164494 A JP 2000-314097 A JP H02-19595 JP H02-74698 A

In view of such a situation, the present invention can remarkably improve the ink setting property at the time of cold offset printing using penetrable drying ink in a multi-color high-quality printing method, An object of the present invention is to provide a newsprint paper for cold offset having good printing workability and color printing quality without causing printing trouble such as set-off failure.

This application includes the following inventions.
(1) At least one surface of the base paper is coated with a surface treatment agent containing calcium carbonate and kaolin as a binder, starch and latex as a binder, and dried so as to be 1.4 g / m ² or less on one side, Newsprint paper for cold offset having whiteness of 55% or more, post-printing opacity of 90% or more, and a dynamic friction coefficient of 0.50 to 0.65.
(2) The newsprint paper for cold offset according to (1), wherein the pigment is contained in a mass ratio of calcium carbonate: kaolin in the range of 50:50 to 90:10.
(3) The total binder ratio of the binder to 100 parts of pigment is less than 50 parts, and the ratio of starch to 100 parts of latex is 50 to 150 parts, either (1) or (2) Newsprint paper for cold offset as described in the section.
(4) The newsprint paper for cold offset according to any one of (1) to (3), wherein the latex is a core-shell type latex.

The newspaper printing paper for cold offset according to the present invention has markedly improved ink fillability during printing in high-quality multicolor printing such as high-definition printing and high-color printing using a cold offset printing press, There is an advantage that it has good printing workability and color printing surface quality without causing printing troubles such as set-off defects and cosmetic stains.

The inventors of the present invention have intensively studied the influence of the surface properties of the paper used on the ink workability and printing workability such as scumming stains in cold offset type high-quality printing. As a result, in high-quality printing such as high-definition printing, it is indispensable to improve its whiteness and surface characteristics in order to fully demonstrate its performance, using calcium carbonate and kaolin as the pigment, The binder has been found to achieve both printing surface suitability and printing workability by defining the amount of the surface treatment agent containing latex and starch and the blending ratio thereof, and has completed the present invention.

To provide newspaper printing paper for cold offset that has excellent color printing suitability and good printing workability, a surface treatment agent containing a pigment composed of calcium carbonate and kaolin on a base paper and starch and latex as a binder is used on one side. By providing a coating layer of 1.4 g / m ² or less per unit, whiteness of 55% or more, opacity after printing of 90% or more, and a dynamic friction coefficient of 0.50 to 0.65. A high-quality cold offset newsprint paper with high whiteness, high printing gloss and less stickiness of printed matter can be obtained. When the coating amount of the surface treatment agent exceeds 1.4 g / m ² , not only the paper weight increases, but also the ratio of the adhesive must be increased to maintain the strength of the coating layer. It is not preferable because it disappears. Moreover, since there is a possibility of causing Nepari due to an increase in the adhesive, it is not preferable. Also, if the dynamic friction coefficient exceeds the range of 0.50 to 0.65, there is a possibility that scumming stains after printing and set-off may be inferior, which may cause problems in the printing surface quality, as well as printing workability. It is not preferable because it affects

Calcium carbonate and kaolin are used as pigments used in the surface treatment agent. Among calcium carbonates, there are acicular, columnar, spherical, spindle-shaped, etc. Among them, cubic ones are preferable because they are effective for set-off. Among them, cubic light coal is easy to have a rough structure in the coating layer, has a high ability to absorb the vehicle content in the ink, has a high set-off suppressing effect, and has a structurally easy to express friction coefficient. The smaller the particle diameter of calcium carbonate, the smaller the pore diameter of the coating layer and the larger the specific surface area, which is advantageous for set-off and opacity. Calcium carbonate is highly effective in improving opacity, but tends to increase the coefficient of dynamic friction. In the case of newspapers driven at high speed, if the coefficient of friction is low, the web tension is difficult to be applied, which may cause wrinkles and paper flow, but if it is too high, it may wrinkle and cause plate wear. Adjustment is necessary because of fear. In the present invention, kaolin is used in combination with a balance with the effect of improving opacity.

The opacity improvement effect of kaolin is inferior to that of calcium carbonate, but the absorption of adhesive is less than that of satin, hydrated silicic acid and organic pigments, and the effect on surface smoothness is great. It became possible to balance surface properties and opacity with a small amount of coating. It is preferable to contain calcium carbonate and kaolin in a ratio of 50:50 to 90:10. It is not preferable because the opacity decreases when the ratio of kaolin is increased from 50. Absent. There is no limitation on calcium carbonate and kaolin, but those having a high effect of improving opacity and those having high whiteness are preferred.

In the present invention, a binder is added to the surface treatment agent together with the pigment in order to improve the adhesion of the pigment and avoid troubles related to surface strength typified by piling. As a binder for increasing both surface strength and opacity, it is necessary to contain starches and synthetic latexes. These binders are particularly preferably used because they have good compatibility with pigments and hardly cause aggregation during coating. Starch has a high adhesion ability with fibers that are hydrophilic components, and it is easy to drop off from the paper surface when the coating amount is so small that the solid coating amount is 1.4 g / m ² or less per side. Fiber and the like are also preferable because they are strongly bonded. Examples of the starches include enzyme-modified starch, oxidized starch, etherified starch, esterified starch, cationized starch, and hydrophobic starch. One or more ordinary adhesives for coated paper such as water-soluble cellulose compounds such as carboxymethylcellulose, methylcellulose, and hydroxyalkylcellulose, polyvinyl alcohol compounds, polyacrylamides, proteins such as casein, soy protein, and synthetic proteins You may use together.

In the present invention, latex is contained together with starch. The latex Tg is preferably -50 to 20 ° C.
Those in this Tg range exhibit tackiness at room temperature and have good adhesion to pigments / fillers, but the polarity of the molecule is very low, and adhesion to strong hydrophilic cellulose fibers is difficult. It is used in combination with starch with high adhesive strength, and has the function of covering adhesion to weak pigments / fillers only with starch. In the case of a low coating amount as in the present invention, the effect of the mutual action of the latex and starch is greatly affected. The latex is preferably a core-shell type. Low Tg latex has a high film-forming property and is rubbery even at room temperature, so that it is easy to develop tackiness and has a high ability to adhere between pigments. However, it is easy to stick on a blanket, and it tends to cause nepari. On the other hand, the high Tg latex has a low adhesive strength, but it is difficult to get a nepari. The core-shell type latex for paper coating generally has a high Tg shell and a low Tg core. In this structure, the adhesive strength of the pigment can be improved due to good film-forming properties and tackiness derived from the Tg of the core, while suppressing Nepari, which is greatly influenced by the surface layer of latex particles. The Tg of the shell is preferably 0 to 20 ° C, and the Tg of the core is preferably -50 to 0 ° C. If the Tg of the shell is less than 0 ° C., the tackiness is too strong, so that nepari is likely to occur, and if it exceeds 20 ° C., the adhesive strength of the pigment is lowered. If the core Tg is less than −50 ° C., the amount of styrene, which is a strong water repellent component, decreases, so that the water absorption is deteriorated, and if it exceeds 0 ° C., the pigment adhesion ability is insufficient and the strength development is deteriorated. Note that the same effect can be obtained with a latex called a concentration gradient type in which the composition from the inside of the particle to the outside changes continuously, but the core-shell type is more preferable because the influence of Tg control appears more clearly. .

In the present invention, in order to provide good coating suitability and good printing workability in the paper production process, the binder ratio is less than 50 parts by dry mass, preferably 15 parts by weight. More than 50 parts and less than 50 parts and the ratio of starch to 100 parts of latex was defined as 50 to 150 parts. When the blending ratio of the binder is less than the specified amount, troubles related to surface strength typified by piling may occur, and when it is more than the specified amount, the opacity after printing may be deteriorated.
In addition, if the latex and starch content exceeds the specified range, the fiber adhesion ability derived from starch is insufficient, and the fibers are easily picked up by the lacel and short fibers on the printing press. This is not preferable because it tends to be easy, and when the amount of starch exceeds this range, the adhesion with the pigment / filler is insufficient, and the pigment / filling amount is easily piled at a predetermined binder amount, which is not preferable.

In this invention, the said surface treating agent is apply | coated so that it may become 1.4 g / m < ² > or less per single side | surface.
Preferably it is preferable to apply a range of ^{0.3g / m 2 ~1.4g / m 2} . If it is less than 0.3 g / m ² , there is no effect in improving the opacity, and if it exceeds 1.4 g / m ² , not only the ink set is deteriorated but also the piling is deteriorated.

The apparatus for applying the coating composition to the base paper for offset printing paper is not particularly limited. For example, an ink line or a party two-roll size press, a blade metalling size press, a rod metalling size press, a gate. Roll coater such as roll coater, trailing, flexible, roll application, fountain application, bevel type and bent type blade coater such as short dwell, rod blade coater, bar coater, air knife coater, curtain coater, spray coater, gravure coater A publicly known apparatus such as the above is appropriately used. In addition, as a method of drying the wet coating layer after apply | coating a surface treating agent composition, various systems, such as vapor | steam drying, gas heater drying, electric heater drying, and infrared heater drying, are employable, for example.

Regarding the production of the cold offset newsprint paper of the present invention, after forming the coating layer of the coating composition, smoothing treatment is performed in various calendar devices. Commonly used calendar devices such as a render, a soft calendar, a gloss calendar, a compact calendar, a mat super calendar, and a mat calendar are appropriately used. As the calender finishing conditions, the temperature of the rigid roll, the calender pressure, the number of nips, the roll speed, the moisture before the calender, etc. are appropriately selected according to the required quality. Furthermore, the calendar device has an off type that is different from the coater and an on type that is integrated with the coater, but can be used in either case. The material of the calendar apparatus to be used is a metal roll or a roll whose surface is mirror-finished with hard chrome plating or the like. As the elastic roll, a roll formed by molding a resin roll such as urethane resin, epoxy resin, polyamide resin, phenol resin, polyacrylate resin, cotton, nylon, aramid resin or the like is used as appropriate. It should be noted that it is also possible to use a suitable combination of a water coating device, an electrostatic humidifier, a steam humidifier, and the like for humidity control and humidification of the coated paper after finishing with a calendar.

The base paper of the cold offset newspaper printing paper according to the present invention is obtained as follows. First, as a raw material pulp, chemical pulp (NBKP, LBKP, etc.), mechanical pulp (GP, CGP, RGP, PGW, TMP, etc.), and waste paper pulp (DIP, etc.) are mixed as appropriate to prepare a stock. Is done. From the viewpoint of effective use of resources, it is preferable to mix 50% of waste paper pulp. Next, fillers such as white carbon, clay, amorphous silica, talc, titanium oxide, or calcium carbonate are appropriately added to the stock, and further, a paper strength enhancer, a yield improver, and a reinforced rosin sizing agent. In general, publicly known papermaking chemicals such as an internal sizing agent such as an emulsion sizing agent, a water-resistant agent, and an ultraviolet ray preventing agent are added, and papermaking is performed by a conventional papermaking machine to produce a base paper. The basis weight of the base paper, 60 g / m ² or less, more preferably when the 35~52g / m ² about, the effect of the present invention as desired is very remarkably exhibited particularly desirable. The printing paper thus obtained is subjected to a surface smoothing process by calendar feeding. In that case, machine calender finishing by a double-sided metal roll and soft calender finishing by passing paper through a pressure nip composed of a metal roll and an elastic roll are appropriately performed.

Also, use a size press, bill blade, gate roll coater, or pre-metering size press to pre-coat one or more layers of base paper pre-coated with starch, polyvinyl alcohol, etc., or a coating solution containing pigment and adhesive. The coated coated paper can also be used. The physical properties of this base paper need to be sufficient to allow penetrating and drying ink to be printed on a cold set type high-speed rotary press, and have physical strength such as tensile strength, tear strength, and elongation equivalent to that of general newsprint. I just need it.

The newsprint paper for cold offset of the present invention has a whiteness of 55% or more, preferably 57% or more, more preferably 60% or more. The higher the whiteness, the better the color printing, because the printed color contrast can be obtained.
Further, the opacity after printing is set to 90% or more. The higher this is, the better. A low opacity after printing is not preferable in the case of newsprint that prints on both sides because the printing quality on the back side is lowered.
The cold set offset printing paper of the present invention has excellent printability, and in particular, since there is no thickening of halftone dots during color printing, a fine image can be obtained.

The present invention will be specifically described below with reference to examples. Of course, the present invention is not limited to these examples. Moreover, unless otherwise indicated, the part and% in an example show a mass part and mass%, respectively.
The following physical properties were measured for the cold offset newsprint papers as Examples and Comparative Examples obtained as described below, and the results are shown in Table 1.

(Whiteness)
The whiteness in the present invention was measured by a method described in ISO 3688 using a spectral whiteness colorimeter (manufactured by Suga Test Instruments Co., Ltd.) (measured with a spectral whiteness colorimeter of Suga Test Instruments).
(Dynamic friction coefficient)
Conforms to JIS P 8147.
Measurement at front and back-vertical and vertical, with a tensile speed of 200 mm / min.

(Opacity after printing)
It conformed to JAPAN TAPPI No.45.

(Ink set)
The cold offset newsprint paper obtained in each of the examples and comparative examples was cut into strips, and a sample paper (OK special art post 256 g / m ² ) was attached side by side. Newspaper printing ink (NEWS WEBMASTER / process ink G2: Sakata Inx Co., Ltd.) for offset rotary presses with the corresponding metal rolls using an RI printing tester (made by Ishikawajima Industrial Machinery Co., Ltd.) with a rubber roll for ink kneading on the 4th cylinder Manufactured) 0.5 cc kneaded, moved the ink kneading rubber roll to the second cylinder, and newly installed a rubber roll wrapped with relatively smooth one-side coated paper for ink transfer on the fourth cylinder, Printing is performed on the second cylinder. When the 4th roll was touched, the rotation was temporarily stopped, and from there, the ink was transferred to the 4th roll by 2 cm at regular intervals, and the transfer density change was visually evaluated. Evaluation was performed in five stages. In the following, the reference product is the offset printing paper obtained in Comparative Example 1.
5: Compared with the standard product, the ink density of the single-sided coated paper that transferred the surface of the newspaper printing paper for cold offset after printing is clearly lower. 4: The cold offset after printing is finished compared with the standard product The ink density of single-sided coated paper with the surface of newspaper printing paper used for printing is slightly low 3: Ink density equivalent to the standard product. Level 2: No problem in practical use: Compared with the standard product, the ink density of the single-sided coated paper that transferred the surface of the newspaper printing paper for cold offset after printing is slightly higher 1: Printed compared with the standard product The ink density of the single-side coated paper to which the surface of the newspaper printing paper for cold offset after completion is transferred is clearly high, and those having an evaluation of less than 3 are problematic in practice.

(Cosmetic dirt)
The newspaper printing paper for cold offset obtained in each of the examples and comparative examples was printed at a speed of 120,000 copies / hour on a tower type multi-color newspaper printing press, and the degree of soiling on the paper surface due to the cosmetic was visually evaluated. Ranking was performed in five stages. In the following, the reference product is the offset printing paper obtained in Comparative Example 1.

5: The level of scumming stain on the printed material is remarkably superior to that of the standard product. 4: The level of scumming stain on the printed material is slightly better than that on the standard product. degree. There is no problem in practical use. Level 2: The degree of scumming stain on the printed matter is slightly inferior to the reference product. 1: The degree of scumming stain on the printed matter is remarkably inferior to that of the reference product. If the value is less than 3, there is a practical problem.

(Dot gain)
The cold offset newsprint paper obtained in the examples and comparative examples was black-printed at a speed of 120,000 copies / hour on the fourth cylinder of a tower-type multicolor newsprint press. Using a halftone dot of 30% as a pattern, the dot area ratio of the printed surface was measured with an image analyzer (DA6000, manufactured by Oji Scientific Instruments), and the dot gain was determined by the following equation.
Dot gain (%) = printing plate halftone dot area ratio-printing surface halftone dot area percentage

Production of newsprint base paper for cold offset printing 7 parts of softwood bleached kraft pulp (NBKP), 13 parts of thermomechanical pulp (GP), 30 parts of pressure ground wood pulp (PGW), 60 parts of deinked pulp (DIP) The pulp slurry mixed and disaggregated and beaten with a refiner is treated with 0.5% cationized starch (P3Y, manufactured by PIRAAB STARCH Co. Ltd) and 0% neutral rosin sizing agent (N815, manufactured by Arakawa Chemical Co., Ltd.). 8%, white carbon 1.0% as a filler, all of which are added in a proportion of mass% of dry pulp, and after adjusting the papermaking pH to 6.5 with a sulfuric acid band, the resulting paper The paper was made with a mer paper machine to obtain a cold offset newsprint base paper of 49.0 g / m ² .

Example 1
70 parts light calcium carbonate (Brilliant S15, manufactured by Shiroishi Kogyo Co., Ltd.) 30 parts kaolin (trade name: Milagros J, manufactured by Seal Co., Ltd.), dispersant (trade name: Aron T-40, manufactured by Toagosei Co., Ltd.) 0.05 parts added and dispersed in 60% dispersion slurry, 8.5 parts styrene-butadiene latex (trade name: T-2635R, manufactured by JSR Corporation), heat-dissolved oxidized corn starch (trade name: Oji Ace) A, 8.5 parts manufactured by Oji Cornstarch Co., Ltd., lubricant (trade name: SN8004SP, manufactured by San Nopco Co., Ltd.) 0.23 parts, waterproofing agent (trade name: Sumires SPI-102A, manufactured by Sumitomo Chemical Co., Ltd.) 0 .15 parts of a fluorescent dye (trade name: Kaya Hall BHT, manufactured by Nippon Kayaku Co., Ltd.) 0.5 part of a paint having a solid content concentration of 25% was prepared. Is applied to both sides of the above base paper using a blade coater so that the coating amount after drying is 1.4 g / m ² per side and dried to obtain a cold offset of 51.8 g / m ² as an actual amount. Newspaper printing paper was obtained.

Example 2
Cold offset newsprint paper was obtained in the same manner as in Example 1 except that the blending ratio of light calcium carbonate and kaolin in Example 1 was changed to 60:40.

Example 3
Cold offset newsprint paper was obtained in the same manner as in Example 1 except that 24 parts of the starch and latex of Example 1 were used.

Example 4
A newsprint paper for cold offset was obtained in the same manner as in Example 1, except that the starch of Example 1 was changed to 4.0 parts.

Comparative Example 1
Cold offset newsprint paper was obtained in the same manner as in Example 1 except that the pigment of Example 1 was changed to 100 parts of calcium carbonate.

Comparative Example 2
Cold offset newsprint paper was obtained in the same manner as in Example 1 except that the pigment of Example 1 was changed to 100 parts of kaolin.

Comparative Example Example 1 The pigment is 40 parts light calcium carbonate (Brilliant S15, manufactured by Shiraishi Kogyo Co., Ltd.), kaolin (trade name: Milagros J, manufactured by Seal Co., Ltd.) 60 parts, the binder is 25 parts latex, and the starch is 25 parts. A cold offset newspaper printing paper was obtained in the same manner as in Example 1 except that the above-mentioned parts were used.

Claims (4)

Offset produced by applying and drying a surface treatment agent containing starch and latex as binders and calcium carbonate and kaolin as pigments to at least 1.4 g / m ² per side on at least one side of the base paper 2. The newsprint paper for cold offset according to claim 1, wherein the printing paper has a whiteness of 55% or more, an opacity after printing of 90% or more, and a dynamic friction coefficient of 0.50 to 0.65. The cold offset printing paper according to claim 1, wherein the pigment is contained in a mass ratio of calcium carbonate: kaolin in the range of 50:50 to 90:10. The cold offset newspaper according to claim 1 or 2, wherein the total binder ratio of the binder to 100 parts of pigment is less than 50 parts, and the ratio of starch to 100 parts of latex is 50 to 150 parts. Printing paper. The newsprint paper for cold offset according to any one of claims 1 to 3, wherein the latex is a core shell type latex.