US20050150625A1 - Gravure paper - Google Patents

Gravure paper Download PDF

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Publication number
US20050150625A1
US20050150625A1 US10381228 US38122803A US2005150625A1 US 20050150625 A1 US20050150625 A1 US 20050150625A1 US 10381228 US10381228 US 10381228 US 38122803 A US38122803 A US 38122803A US 2005150625 A1 US2005150625 A1 US 2005150625A1
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Prior art keywords
paper
gravure printing
weight
pulp
substance
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Abandoned
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US10381228
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Takashi Ochi
Takehide Kasahara
Hideki Fujiwara
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Nippon Paper Industries Co Ltd
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Nippon Paper Industries Co Ltd
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21HPULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
    • D21H21/00Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties
    • D21H21/14Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties characterised by function or properties in or on the paper
    • D21H21/22Agents rendering paper porous, absorbent or bulky
    • D21H21/24Surfactants
    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21HPULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
    • D21H17/00Non-fibrous material added to the pulp, characterised by its constitution; Paper-impregnating material characterised by its constitution
    • D21H17/63Inorganic compounds
    • D21H17/67Water-insoluble compounds, e.g. fillers, pigments

Abstract

A non-coated gravure printing paper offering good gravure printability—particularly as evidenced in the reduced generation of speckling, was obtained by improving the cushioning property of the paper and thus improving its adhesion with the photogravure cylinder—by means of adding a substance or substances, such as surface-active agents, which will inhibit the binding between pulp fibers in the paper and which, when added to an ideal level of 0.3 weight % of the bone-dry weight of pulp, will reduce the tensile strength of paper in the machine direction by 5 to 40% as measured in accordance with JIS P 8113, compared with the level when no such substance is added.

Description

    FIELD OF THE INVENTION
  • This invention relates to a non-coated gravure printing paper that provides excellent gravure printability through the achievement of better adhesion between the photogravure cylinder and the paper, thereby reducing the generation of speckles.
  • BACKGROUND OF THE INVENTION
  • Gravure printing is a type of intaglio printing and therefore it requires a high degree of adhesion between the paper and the photogravure cylinder during printing. Poor adhesion between the paper and photogravure cylinder results in poor transfer of the ink, the likely result of which is the generation of so-called “speckles,” or small white spots, particularly in half-tone areas. The speckles invariably reduce the quality of the printed result. Good adhesion is achieved through the high smoothness and cushioning property of the paper. If the paper is smooth, it adheres more closely to the photogravure cylinder. A higher cushioning property allows the paper to deform under pressure during printing and thereby achieve better adhesion to the photogravure cylinder. These effects reduce the occurrence of speckles and thus improve printing quality.
  • Certain types of pulp and filler—two key ingredients in the production of paper—are selected to achieve higher smoothness and cushioning in a gravure printing paper. As for pulp, the content of mechanical pulp (such as groundwood pulp and refiner groundwood pulp) is maximized to increase the degree of cushioning. If chemical pulp materials must be used, ones having softer fibers are selected. To achieve a smoother surface, normally a gravure paper contains approximately 30% filler. This is more than the level found in offset printing papers, for example, where the filler content is generally 20% or less. Various other agents are added to the pulp and filler mixture, which is then made into paper. The obtained paper then undergoes a process of super-calendering to ensure high smoothness. While a filler consisting of fine, plate-shaped grains improves smoothness, the use of a filler containing grains that are too small in size increases the generation of speckles, although the smoothness does improve. Therefore, the filler content must be limited. Amid increasing environmental awareness throughout the public and industry of late, the use of recycled, ink-removed pulp is now favored over virgin pulp in both mechanical and chemical pulp applications. With chemical pulp it has become difficult to selectively source high-grade wood material from which flexible fibers can be obtained, or to procure chemical pulp made from such high-grade wood material. As a result it has become increasingly important to design quality gravure printing papers that generate less speckling, in addition to seeking the optimal blend of filler and pulp.
  • SUMMARY OF THE INVENTION
  • The purpose of this invention is to provide a gravure printing paper that reduces the generation of speckles by achieving better adhesion between the photogravure cylinder and the paper.
  • The inventors carried out extensive studies to identify ways of reducing speckles on paper during gravure printing, other than methods relating to pulp and filler selection. As a result it was found that speckling decreases when certain organic chemicals are added to the material mixture. This finding has in turn led to the invention presented here. Specifically, this invention provides a gravure printing paper that contains a substance or substances having the effect of inhibiting the binding between pulp fibers.
  • So-called “surfactant” having a hydrophobic group and a hydrophilic group have the effect of inhibiting the binding between pulp fibers, and therefore such agents (hereinafter referred to as “binding inhibitors”) may be used in this invention. However, a binding inhibitor need not be a surfactant as long as it inhibits the binding between fibers. Density reducers (or bulk-increasing agents), developed in recent years for the purpose of increasing paper bulk and currently available in the market, provide a degree of binding inhibition suitable to this invention. For example, high-grade alcohol containing ethylene and/or propylene oxide, which provides a polyhydric-alcohol type of nonionic surfactant, as defined in WO patent application No. 98/03730; high-grade fatty acid containing ethylene oxide as defined in Japanese Patent Application Laid-open No. 11-200284; and the ester compound of polyhydric alcohol and fatty acid, ester compound of polyhydric alcohol and fatty acid containing ethylene oxide, and fatty polyamide amine, as defined in Japanese Patent Application Laid-open No. 11-350380, can all be cited as examples of suitable binding inhibitors. The commercially available bulk-increasing chemicals include Sursol VL by BASF, Bayvolum P Liquid by Bayer, KB-08T, KB-08W, KB-110 and KB-115 by Kao and Reactopaque by Sansho. Two or more of these chemicals may be used in combination.
  • These binding inhibitors are not known to provide the effect of reducing speckles on gravure printing papers. The reason is not clear, but the following explanation offers a reasonable answer:
  • The aforementioned bulk-increasing agents or density reducers, when added to the paper material mixture as binding inhibitors, decrease the density of the paper and make the paper bulkier. However, gravure printing papers undergo a super-calendering process to achieve high smoothness, so that the resulting papers have neither higher bulk nor lower density. Nonetheless, because the binding inhibitors partially sever the bindings between pulp fibers and allow the fibers to move freely, when printing pressure is applied on the gravure paper the fibers move in response to the pressure and the paper adheres better to the photogravure cylinder. This facilitates the transfer of ink from the photogravure cylinder, in turn reducing the generation of speckles.
  • BEST MODE FOR CARRYING OUT THE INVENTION
  • This invention is basically a gravure printing paper that contains a substance or substances having the effect of inhibiting the binding between pulp fibers.
  • The gravure printing paper provided by this invention contains a substance or substances having the effect of inhibiting the binding between pulp fibers, wherein these substances, when added to 0.3 weight % of the bone-dry weight of pulp, will reduce the tensile strength of paper in the machine direction by 5 to 40% as measured per JIS P 8113, compared with the level when no binding inhibitors are added.
  • The gravure printing paper provided by this invention also contains 5 to 40% of ash as a filler in the aforementioned material composition.
  • The aforementioned characteristics of the gravure printing paper provided by this invention help achieve greater adhesion between the photogravure cylinder and the paper compared with other papers having similar density and smoothness, because the substance or substances contained in the paper have the effect of inhibiting the binding between pulp fibers. Therefore, the paper so produced provides an excellent benefit of reduced speckling.
  • The gravure printing paper provided by this invention reduces speckles by adding 0.01 to 10 weight %, or optimally 0.2 to 1.5 weight %, of binding inhibitor relative to the bone-dry weight of the pulp content of the gravure printing paper. If the binding inhibitor content is too high, the binding between fibers is inhibited more than is necessary. This will result in an excessive drop in paper strength, thereby making the paper prone to problems such as tearing. Therefore, a desirable binding inhibitor content is 0.3 weight % of the bone-dry weight of pulp, which should result in a 5 to 40% drop in the tensile strength under the tensile-strength drop test specified in the aforementioned standard.
  • The gravure printing paper provided by this invention uses chemical pulp (bleached or unbleached kraft pulp from softwood, bleached or unbleached kraft pulp from hardwood, etc.), mechanical pulp (groundwood pulp, thermomechanical pulp, chemi-thermomechanical pulp, etc.), or recycled, ink-removed pulp, wherein these material pulps may be used alone or in combination at arbitrary blending ratios.
  • The gravure printing paper provided by this invention may have a pH level that is in the acid, neutral or alkali range. It may use known fillers such as kaoline, talc, silica, white carbon, calcium carbonate, titanium oxide and synthetic resin filler. Ideally, fillers should be added to 5 to 40 weight % as the ash content in the paper, with an optimal content being in the range of 10 to 35 weight %. In this range of ash content the invention provides an ideal gravure printing paper offering improved smoothness and gloss. When the ash content exceeds 40 weight %, the paper strength will drop significantly.
  • Furthermore, the gravure printing paper provided by this invention may contain, if necessary, aluminum sulfate, sizing agent, paper strength enhancer, retention-aiding agent, coloring agent, dye, defoaming agent, and so on.
  • The gravure printing paper provided by this invention may be coated with surface-treatment agents for the purpose of adding a sizing property and increasing surface strength. The surface-treatment agents that may be used for this purpose are of the water-soluble polymer type. They include: starches such as normal starch, enzyme modified starch, thermo-chemically modified starch, oxidized starch, esterified starch, etherified starch and cationized starch; polyvinyl alcohols such as normal polyvinyl alcohol, fully saponified polyvinyl alcohol, partially saponified polyvinyl alcohol, carboxyl modified polyvinyl alcohol, silanol modified polyvinyl alcohol, cationic modified polyvinyl alcohol and terminal alkyl modified polyvinyl alcohol; polyacrylic amides such as normal polyacrylic amide, cationic polyacrylic amide, anionic polyacrylic amide and amphoteric polyacrylic amide; and celluloses such as carboxymethyl cellulose, hydroxyethyl cellulose and methyl cellulose. These materials may be used alone or in combination.
  • The binding inhibitor to be used in this invention may be selected from the substances mentioned earlier, through the use of tests such as the one specified below.
  • This test uses a pulp slurry of the target paper containing the testing substance by 0.3 weight % of the bone-dry weight of pulp. The mixture is made into paper using an oriented test paper machine (by Kumagaya Riki) operating at a speed of 900 rpm. The resultant paper is pressed and dried in accordance with the methods specified in JIS P 8209 to produce a test paper. In the test conducted by the inventors, a fan dryer was used to dry the paper at 50° C. for one hour. The test paper thus obtained is left in a temperature-controlled environment of 23° C. and a relative humidity of 50% for 24 hours, after which the tensile strength of the paper in the machine direction is measured in accordance with JIS P 8113. Substances that can reduce the tensile strength of paper in the machine direction are deemed suitable as binding inhibitors in this invention.
  • If the measured drop in tensile strength is very small, it means the applicable substance is less effective in reducing speckles and must be added in relatively greater volume. If the tensile strength drops substantially, just a small amount of that substance can effectively reduce the occurrence of speckling. So, although any substance can be used that reduces the tensile strength of paper, it is preferable to use those that can reduce the tensile strength by around 5 to 40% when added to 0.3 weight %.
  • The following is a detailed explanation of this invention using examples. However, the invention is not limited to the examples provided.
  • Selection of Binding Inhibitor
  • A one-% slurry was prepared by combining 30 weight-parts of bleached softwood kraft pulp (NBKP, CSF freeness 550 ml) and 70 weight-parts of refiner groundwood pulp (RGP). Each of the chemicals listed in Table 1 was added to 0.3 weight % of the bone-dry weight of pulp to create a paper material mixture. This paper material mixture was then processed into a paper with a grammage of 60 g/m2 using an oriented test paper machine by Kumagaya Riki operating at a speed of 900 rpm. The paper thus obtained was pressed and dried in accordance with the methods specified in JIS P 8209.
  • The paper was dried in a fan dryer at 50° C. for one hour to obtain a test paper. The test paper was then left in a temperature-controlled environment of 23° C. and a relative humidity of 50% for 24 hours, after which the tensile strength of the paper in the machine direction was measured in accordance with JIS P 8113.
    TABLE 1
    Tensile Suitability as
    strength Drop in tensile binding
    Evaluated chemical (kN/m) strength (%) inhibitor
    KB-08W (Kao) 1.53 13.7
    KB-110 (Kao) 1.50 14.8
    Sursol VL (BASF) 1.56 9.8
    Bayvolum P Liquid (Bayer) 1.59 9.7
    Reactopaque (Sansho) 1.63 7.4
    Isopropyl alcohol 1.73 1.7 Δ
    Starch 1.85 −5.1 X
    Casein 1.89 −7.4 X
    Polyethylene glycol 1.73 1.7 Δ
    Oleic acid 1.66 5.7 Δ
    Polyacrylic amide 2.00 −13.6 X
    No substance added 1.76
  • The above test indicated that the substances that reduce tensile strength by 6% or more are suitable as binding inhibitors in application to this invention, and that those resulting in a strength reduction of 10% or more are particularly suitable.
  • Next, gravure printing papers were created by adding KB-08W (Kao) and Sursol VL (BASF), these being the two agents that exhibited the best biding inhibition properties among the substances listed in Table 1.
  • EXAMPLE 1
  • A paper material mixture was prepared by combining 30 weight-parts of NBKP (CSF freeness 550 ml) and 70 weight-parts of RGP as the pulp content and 30 weight % of Indonesian kaoline as the ash content. KB-08W (by Kao) was added to this mixture as a binding inhibitor to 0.1 weight % of the bone-dry weight of pulp. The material mixture was then processed by an oriented test paper machine (by Kumagaya Riki) into a paper with a grammage of 60 g/m2.
  • During the paper-making process the pH of the material mixture was adjusted to 4.5 through the addition of aluminum sulfate. The resultant hand-made paper was subsequently processed by a test super-calender to obtain a gravure printing paper with an Oken's smoothness of 1000±100 seconds.
  • EXAMPLE 2
  • A gravure printing paper was obtained in the same manner as described in Example 1, except that KB-08W (by Kao) was added as a binding inhibitor to 0.4 weight % of the bone-dry weight of pulp.
  • EXAMPLE 3
  • A gravure printing paper was obtained in the same manner as described in Example 1, except that KB-08W (by Kao) was added as a binding inhibitor to 0.8 weight % of the bone-dry weight of pulp.
  • EXAMPLE 4
  • A gravure printing paper was obtained in the same manner as described in Example 1, except that Sursol VL (by BASF) was added as a binding inhibitor to 0.8 weight % of the bone-dry weight of pulp.
  • COMPARATIVE EXAMPLE 1
  • A gravure printing paper was obtained in the same manner and using super-calendering as described in Example 1, except that no binding inhibitor was added to the material mixture.
  • EXAMPLE 5
  • A gravure printing paper was obtained in the same manner and using super-calendering as described in Example 1, except that the material mixture was prepared by combining 20 weight-parts of newspaper DIP, 50 weight-parts of high-grade DIP and 30 weight-parts of RGP as the pulp content and 30 weight % of Indonesian kaoline as the ash content, to which KB-08W (by Kao) was added as a binding inhibitor to 0.8 weight % of the bone-dry weight of pulp.
  • COMPARATIVE EXAMPLE 2
  • A gravure printing paper was obtained in the same manner as described in Example 5, except that no binding inhibitor was added to the material mixture.
  • EXAMPLE 6
  • A paper material mixture was prepared by combining 30 weight-parts of NBKP (CSF freeness 550 ml) and 70 weight-parts of RGP as the pulp content and 30 weight % of a mixture of Indonesian kaoline and precipitated calcium carbonate blended at a ratio of 5:1 as the ash content. KB-08W (by Kao) was added to this material mixture as a binding inhibitor to 0.8 weight % of the bone-dry weight of pulp, and the mixture was made into a paper with a grammage of 60 g/m2 using an oriented test paper machine. During the paper-making process the pH of the material mixture was adjusted to 7.5 through the addition of aluminum sulfate. The resultant hand-made paper was then processed by a test super-calender to obtain a gravure printing paper.
  • COMPARATIVE EXAMPLE 3
  • A gravure printing paper was obtained in the same manner and using super-calendering as described in Example 4, except that no binding inhibitor was added to the material mixture.
  • The following items were measured on the gravure printing papers obtained in the examples and comparative examples, the results of which are shown in Table 2.
      • (1) Speckling evaluation: Gravure printing was performed on a two-color gravure printability tester of the type used by the Printing Bureau (by Kumagaya Riki) at a printing speed of 40 m/minute under a printing pressure of 10 kg, and by using OGCT Process (indigo ink) by Toyo Ink (toluene-based, Zahn cup viscosity 10 seconds, 1:6 ratio of toluene to ink), after which the speckles were measured by visually counting the white dots (missing dots) in a 15-% half-tone area (30 mm×34.5 mm).
      • (2) Density: Measured in accordance with JIS P 8118
      • (3) Smoothness: Measured using an Oken type smoothness tester
  • (4) Tensile strength: The tensile strength of the paper in the machine direction was measured in accordance with JIS P 8113.
    TABLE 2
    Binding Tensile
    inhibitor Density Smoothness strength
    content (%) (g/m2) (seconds) (kN/m) Speckles
    Example 1 0.1 0.99 950 1.28 90
    Example 2 0.4 0.99 1029 1.15 53
    Example 3 0.8 0.95 916 1.03 27
    Example 4 0.8 0.97 920 0.95 32
    Comparative 0 0.99 935 1.35 95
    example 1
    Example 5 0.8 1.00 1064 0.90 8
    Comparative 0 1.01 1096 1.28 22
    example 2
    Example 6 0.8 0.95 1050 1.08 35
    Comparative 0 0.96 980 1.42 110
    example 3
  • From the results shown in Table 2, it became clear that the addition of binding inhibitors having the effect of inhibiting the binding between fibers and thereby reducing the tensile strength would reduce the number of speckles generated during gravure printing and therefore improve printing quality. These binding inhibitors, which act upon the bindings between fibers, are sometimes used as density reducers for the purpose of increasing paper bulk. However, gravure printing papers undergo a super-calendering process, and therefore the binding inhibitors do not substantially increase the bulk of such papers. In gravure printing papers the binding inhibitors do not serve as density reducers.
  • Additionally, although these binding inhibitors tend to increase smoothness during calendering, in the above tests all papers are assumed to have an equivalent smoothness.
  • The inventors therefore infer that the binding inhibitors reduce the occurrence of speckles on gravure printing papers not because they have density-reducing or smoothness-improving properties but because they allow the fibers to move more freely by inhibiting the binding between them and thus achieve better adhesion between the paper and the photogravure cylinder, thereby reducing the generation of speckles.
  • When the addition of a binding inhibitor only results in a five-% drop in tensile strength, as in the case of Example 1, speckling is not sufficiently suppressed. When the drop in tensile strength exceeds 10%, as shown by the results of examples 2 through 6, the number of speckles decreases substantially.
  • Furthermore, the speckle reduction effect of surface-active agents is evident, even after the pH of the paper material mixture is changed from the acid range of pH 4.5 (examples 1 through 5) to the alkali range of pH 7.5 (Example 6). In other words, these agents work effectively in both acid and alkali material mixtures without being affected by pH level.
  • Industrial Field of Application
  • This invention allows for the making of a gravure printing paper that provides an excellent benefit of reduced speckling, which is achieved by adding a substance or substances having the effect of inhibiting the binding between pulp fibers in the paper and thereby offering better adhesion between the photogravure cylinder and the paper.

Claims (8)

  1. 1. A gravure printing paper which comprises a substance having an effect of inhibiting a binding between pulp fibers.
  2. 2. The gravure printing paper as described in claim 1, wherein said substance is a substance which reduces a tensile strength of paper in a machine direction by 5 to 40% as measured in accordance with JIS P 8113 when added to 0.3 weight % of a bone-dry weight of pulp, compared with the level when no such substance is added.
  3. 3. The gravure printing paper as described in claim 1 or 2, further comprising 5 to 40 weight % of filler as an ash content.
  4. 4. The gravure printing paper as described in claim 2, further comprising 5 to 40 weight % of filler as an ash content.
  5. 5. The gravure printing paper as described in claim 1, wherein said substance is selected from the group consisting of a surfactant, a density reducer, and a bulk-increasing agent.
  6. 6. The gravure printing paper as described in claim 1, wherein said substance is selected from the group consisting of a high-grade alcohol containing ethylene and/or propylene oxide, a polyhydric-alcohol type of nonionic surfactant, a high-grade fatty acid containing ethylene oxide, an ester compound of polyhydric alcohol and fatty acid, an ester compound of polyhydric alcohol and fatty acid containing ethylene oxide, and fatty polyamide amine.
  7. 7. The gravure printing paper as described in claim 1, wherein the content of said substance is 0.01 to 10 weight % relative to the bone-dry weight of the pulp.
  8. 8. The gravure printing paper as described in claim 1, wherein the content of said substance is 0.2 to 1.5 weight % relative to the bone-dry weight of the pulp.
US10381228 2000-09-25 2001-09-21 Gravure paper Abandoned US20050150625A1 (en)

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PCT/JP2001/008234 WO2002025011A1 (en) 2000-09-25 2001-09-21 Gravure paper

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Cited By (2)

* Cited by examiner, † Cited by third party
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US20050016701A1 (en) * 2001-12-26 2005-01-27 Hideaki Nisogi Dullish coated paper for printing
US20070113996A1 (en) * 2000-09-25 2007-05-24 Takashi Ochi Method of manufacturing gravure paper

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Publication number Priority date Publication date Assignee Title
US20070113996A1 (en) * 2000-09-25 2007-05-24 Takashi Ochi Method of manufacturing gravure paper
US7670458B2 (en) * 2000-09-25 2010-03-02 Nippon Paper Industries Co., Ltd. Method of manufacturing gravure paper
US20050016701A1 (en) * 2001-12-26 2005-01-27 Hideaki Nisogi Dullish coated paper for printing
US7208068B2 (en) * 2001-12-26 2007-04-24 Nippon Paper Industries Co., Ltd. Dullish coated paper for printing

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Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:OCHI, TAKASHI;KASAHARA, TAKEHIDE;FUJIWARA, HIDEKI;REEL/FRAME:014300/0968;SIGNING DATES FROM 20030324 TO 20030421