JP6177183B2 - Newspaper production method - Google Patents

Description

  The present invention relates to a method for producing newsprint. More specifically, the present invention relates to a method for producing newsprint paper that is excellent in fading and has few paper breaks during printing.

  In recent newspapers, color printing is frequently used. Since the appearance of color printing improves as the whiteness of the base paper increases, high whiteness is required for printing newsprint. In many cases, newsprint used for advertising is used with particularly high whiteness.

  Newspaper paper is mainly printed by the offset printing method, but paper breaks are likely to occur as the printing speed increases, and in the unlikely event of paper breakage, not only paper removal but also damage to blankets, etc. Because it may be accompanied by equipment replacement, it takes a lot of time and may not be in time for delivery. Due to such limitations on delivery time, newsprint paper is required to have no paper break during printing, as compared to general printing paper.

  In addition, advertisements using the entire paper surface may be displayed at home as visuals. Many users store for a long time as scrap collection, and discolored newspaper is not preferred.

  In response to such requirements, by specifying the wood pulp type, ash content, fluorescence intensity, basis weight, tensile strength (vertical), tensile strength aspect ratio (vertical / horizontal), etc., high whiteness, In addition to being able to shine color printing with opacity, newspaper paper has been proposed that is less susceptible to paper breaks, tears, and wrinkles due to reduced strength even at low basis weights (see, for example, Patent Document 1).

JP 2009-155787 A

  However, in the technique of Patent Document 1, it may be difficult to sufficiently suppress the paper break due to further speeding up of the printing press, and since a whiteness improving method that relies on a fluorescent dye is adopted, fading is caused. Further, there is a problem that the fading property is further deteriorated due to heavy use of mechanical pulp.

  In view of such problems, an object of the present invention is to provide a method for producing newsprint paper that has few paper breaks during printing and is excellent in fading.

As a result of intensive studies on a newsprint manufacturing method, the present inventors have found that the following configuration can achieve the object. That is, the method for producing newsprint according to the present invention uses a paper material containing pulp, a filler, and an internal paper strength agent, and makes a paper with a paper machine having a wire part and a calendar device before the reel. A method for producing newsprint without a construction layer, wherein 90% by mass or more of the pulp is bleached kraft pulp, the freeness (CSF) of the pulp is 350 to 490 mL, and the filler is contained in newsprint It is added to the paper stock so that the ash content is 8 to 16% by mass, and the internal paper strength agent is added to 0.4 to 1.3% by mass with respect to the pulp. The J / W ratio during paper making is in the range of 0.97 to 1.03, the total draw from the wire part to the calendar device before the reel is 3.0 to 5.5%, and the tensile strength of the newspaper is Vertical and 3.0 kN / m or more, characterized by the aspect ratio of the tensile strength of the newsprint (vertical / horizontal) and from 1.9 to 2.5.

  In the newsprint manufacturing method according to the present invention, the total content of mechanical pulp and deinked waste paper pulp in the pulp is preferably less than 10% by mass. By adopting such a configuration, it is possible to obtain newsprint paper that is further excellent in fading.

  In the newsprint manufacturing method according to the present invention, it is preferable that the degree of sizing of the newsprint is 3 seconds or more. By adopting such a configuration, it is possible to provide a newsprint manufacturing method with less paper breakage during printing.

  In the newsprint manufacturing method according to the present invention, it is preferable that a fluorescent whitening agent is added to the paper stock so that the fluorescent strength of the newsprint is 0.1-2. While improving the whiteness, it is possible to obtain newsprint paper that is more excellent in color resistance.

  According to the newsprint paper manufacturing method of the present invention, it is possible to provide a newsprint paper manufacturing method that has sufficient strength so that there is little paper breakage during printing such as offset printing and that is excellent in fading.

  Next, the present invention will be described in detail with reference to embodiments, but the present invention is not construed as being limited to these descriptions. As long as the effect of the present invention is exhibited, the embodiment may be variously modified.

  The method for producing newsprint according to the present embodiment uses a paper material containing pulp, a filler, and an internal paper strength agent, and makes a paper by a paper machine having a wire part and a calendar device before the reel, and a pigment coating A method for producing newsprint without a layer, wherein 90% by mass or more of the pulp is bleached kraft pulp, the pulp freeness (CSF) is 350 to 490 mL, and the filler has an ash content of 8 to 8 It is added to the stock so as to be 16% by mass, and the internal paper strength agent is added to the pulp in an amount of 0.4 to 1.3% by mass, calendered by a calender device, and J / The W ratio is in the range of 0.97 to 1.03, the total draw from the wire part to the calendar device before the reel is 3.0 to 5.5%, and the tensile strength (vertical) of the newsprint is 3.0 kN / M or more, newspaper Tensile strength aspect ratio of paper (vertical / horizontal) to 1.0 to 2.5.

  In this embodiment, the paper stock is adjusted using pulp as the main raw material. Examples of the pulp used here include chemical pulp such as unbleached kraft pulp, hardwood bleached kraft pulp (LBKP), and softwood bleached kraft pulp (NBKP) obtained by cooking hardwood or coniferous wood, and ground pulp (GP). , Pressurized pulp (PGW), refiner ground pulp (RMP), thermomechanical pulp (TMP), chemithermomechanical pulp (CTMP), chemimechanical pulp (CMP), chemiground pulp (CGP), etc. Examples include waste paper pulp such as ink waste paper pulp. In the present embodiment, 90% by mass or more of pulp used as a raw material is bleached kraft pulp. Preferably it is 100 mass%. By using 90% by mass or more of bleached kraft pulp as the pulp, it is possible to obtain newsprint paper with excellent fading. Moreover, it can be set as a newspaper with comparatively high whiteness. As bleached kraft pulp, NBKP and LBKP can be used singly or in combination, but when they are compared, LBKP is preferable in that the fibers are thin and the texture of the newsprint is improved. NBKP has the advantage of increasing the strength of newsprint because of its long fibers, but if the blending ratio is high, the formation of newsprint may be impaired. Therefore, LBKP is preferably blended higher than NBKP. Specifically, 90% by mass or more of bleached kraft pulp is preferably LBKP, and more preferably 100% by mass is LBKP.

  The pulp to be used other than bleached kraft pulp is not limited, and the above-mentioned various known pulps can be used. However, when mechanical pulp and deinked waste paper pulp are used, their total content is It is preferable to be less than 10% by mass in the total mass. More preferably, it is not used. When the total content of mechanical pulp and deinked waste paper pulp is 10% by mass or more, there is a possibility that newsprint paper is inferior in fading. In addition, the paper may break due to insufficient strength.

  In addition, although the said deinked used paper pulp is divided roughly into a high quality type and a medium quality type, in order to avoid discoloration, it is preferable to use a high quality used paper pulp. Examples of the high-quality waste paper pulp include pulps prepared from waste paper such as fine white, ruled white, curd, imitation, color, Kent, white art, and milk carton. Representative examples of the medium-sized waste paper pulp include pulps prepared from newspapers, magazines, cutting, medium-size antiquarian, tea imitation, corrugated cardboard, backing paper / base cards, cardboard and the like. In general, deinked waste paper pulp uses a deinking agent in the recycling process, and the deinking agent remaining in the deinked waste paper pulp may cause deterioration of fading. Accordingly, even when high-quality waste paper pulp is used, it is preferable that the deinked waste paper pulp is less than 10% by mass in order to improve the fading property. More preferably, it is not used.

  Freeness of pulp (in this embodiment, the Canadian standard freeness (CSF) obtained in accordance with JIS P 811-2: 2012 "Pulp-Freeness Test Method-Part 2: Canadian Standard Freeness Method") Represents a range of 350 to 490 mL. The freeness (CSF) is more preferably 390 to 450 mL. If it is less than 350 mL, water runs out on the wire and the raw material concentration is placed on the wire in a high state. The result is a poorly formed newspaper. If it exceeds 490 mL, the strength of the newsprint is insufficient, and there is a risk of paper breakage during printing.

In this embodiment, a filler is contained in the paper material. The filler is not particularly limited, and various known fillers can be used. However, in order to improve the fading property of newsprint, it is preferable to use neutral papermaking. In the case of neutral papermaking, since the paper stock is adjusted to pH 6 or higher, it is preferable to use calcium carbonate as a filler. . Among calcium carbonates, light calcium carbonate can be suitably used from the viewpoint of improving the opacity of newsprint and improving the yield on the wire, and the total amount of filler is preferably light calcium carbonate. In particular, spindle-shaped light calcium carbonate having an average particle diameter of 4 to 6 μm and a specific surface area of 5 to 9 m ² / g is more preferable. Examples of other fillers include white carbon, clay, talc, and titanium dioxide, but white carbon tends to stain the printing press blanket, and clay and titanium dioxide have poor yield on the wire, making paper. Use with caution as the entire process is prone to contamination. When light calcium carbonate and other fillers are used in combination, it is preferable to use light calcium carbonate and talc in combination.

  In the present embodiment, since the newspaper is not provided with a pigment coating layer, it is necessary to add a certain amount of filler to the paper to ensure opacity. In the present embodiment, the amount of filler added to the paper stock is such that the ash content of the newsprint is 8 to 16%. More preferably, it is added so that the ash content of the newsprint becomes 10 to 15%. The amount of filler added to the paper stock may be determined in consideration of the yield rate of the filler on the paper machine. When the amount of filler added to the paper stock is small and the ash content of the newsprint is less than 8%, the opacity of the newsprint is insufficient, and there is a concern that the printed image may show through. On the other hand, if it exceeds 16%, the strength of the newspaper may be reduced and the number of paper breaks during printing may increase.

  The opacity of the newsprint measured in accordance with JIS P 8149: 2000 “Paper and Paperboard—Opacity Test Method” is preferably more than 85%, more preferably 88% or more. By setting the opacity within this range, it is possible to prevent the print image from being shown through.

  In the present embodiment, an internal paper strength agent is contained in the stock. The tensile strength of newsprint is improved by adding an internal paper strength agent. However, if the added amount of the internal paper strength agent is too large, the aggregation of the pulp fibers becomes large, the texture deteriorates and the problem of uneven ink deposition occurs, so it is necessary to appropriately set the added amount. Therefore, the amount of the internal paper strength agent added to the paper stock in this embodiment is 0.4 to 1.3% by mass with respect to the pulp in the paper stock. Preferably it is 0.6-1.0 mass%. As the internal paper strength agent, a conventionally known internal paper strength agent can be used, and starch-based internal paper strength agents represented by cationic starch, polyacrylamide-based internal paper strength agents, PVA-based materials Examples thereof include an internal paper strength agent and a starch graft polymerization polyacrylamide type internal strength paper strength agent.

  In the present embodiment, it is preferable that the sizing degree of the newsprint is 3 seconds or more, and more preferably 9 seconds or more. If the Steecht sizing degree is less than 3 seconds, it tends to lead to paper breaks during printing. When printing on newsprint, dampening water will adhere to the paper surface. However, if the Steecht sizing degree is less than 3 seconds, the newsprint will easily absorb dampening water, and printing stains are likely to occur. In order to suppress this printing stain, a deficiency equivalent to the dampening solution absorbed in the paper is supplied to the printing plate. This results in a vicious cycle, resulting in the newspaper paper absorbing a large amount of dampening water and printing. Sometimes paper breaks easily occur. The upper limit of the squeecht sizing degree of the newspaper is not particularly limited, but is preferably 20 seconds or less, and more preferably 15 seconds or less. In order to make it 20 seconds or more, it is necessary to use a large amount of a sizing agent, but process contamination is likely to occur, which may hinder production. The method of setting the newspaper sizing degree to 3 seconds or more is not particularly limited, but it is preferable to use a sizing agent. The method of applying the sizing agent may be a method of adding to the stock (internal addition size) or a method of applying to the surface of the newsprint (external addition size). As a method for applying the sizing agent, it is more preferable to use both a method of adding to the stock and a method of applying to the surface of the newsprint.

  When the internal sizing agent is added to the stock, examples of the internal sizing agent to be used include rosin sizing agents, alkyl ketene dimers (AKD), and alkenyl succinic anhydrides (ASA). However, since alkyl ketene dimer (AKD) has a slow rise in size, when the size press solution is applied on-machine, the size of the base paper becomes unstable when the size press solution is applied, and the size press solution The liquid absorption becomes unstable. As a result, the amount of chemicals contained in the size press liquid may become unstable. In addition, alkenyl succinic anhydride (ASA) may decrease in size over time after the onset of size. For this reason, variation occurs in the dampening water absorption during printing, and the paper is easily cut. Therefore, in this embodiment, it is preferable to use a rosin-based sizing agent as the internal sizing agent. Examples of rosin sizing agents include reinforced rosin sizing agents and rosin emulsion sizing agents. In the present embodiment, it is preferable to use a neutral rosin emulsion sizing agent because it is preferable to perform neutral papermaking as described above. The content of the rosin-based sizing agent is preferably 0.01 to 1.00 parts by mass, and preferably 0.05 to 0.50 parts by mass with respect to 100 parts by mass of the pulp. By setting the content of the rosin-based sizing agent within this range, it is possible to set the steecht sizing degree to a desired range and suppress paper breaks.

When the external sizing agent is applied to the surface of the newsprint, the external sizing agent is preferably an alkyl ketene dimer (AKD). External additives include petroleum resin, rosin ester, styrene maleic acid resin, styrene acrylic acid copolymer, styrene acrylic emulsion, acrylic copolymer, acrylic emulsion, olefin / maleic resin, urethane However, one or more of these may be used in combination with an alkyl ketene dimer. Alkyl ketene dimers can moderately reduce the coefficient of static friction and dynamic friction, and can provide improved runnability when printing newsprint. When the external sizing agent is applied to the surface of the newsprint, a size press liquid containing the external sizing agent can be applied. The coating method is preferably applied by a transfer type coating machine represented by a gate roll coater, a rod metering type sizer or the like. This is because the alkyl ketene dimer contained in the size press liquid can be localized on the surface. In the pond type size press, the size press solution penetrates to the center of the base paper, which is not preferable because the effect of the alkyl ketene dimer is reduced. In order to make the static friction / dynamic friction coefficient of the surface of the newsprint paper in a desired range, the alkyl ketene dimer content in the size press liquid is preferably 0.005 mass% to 0.06 mass%, and 0.01 mass. % To 0.05% by mass is more preferable. The coating amount of the alkyl ketene dimer is preferably 0.0010 to 0.0050 g / m ² , more preferably 0.0015 to 0.0040 g / m ² per side of the newsprint.

  So far, the method of controlling the Steecht sizing degree using a sizing agent has been described, but the Steecht sizing degree is controlled by adjusting, for example, the pulp freeness, the type of pulp to be blended, or the ash content. May be. For example, the steecht sizing degree tends to decrease as the pulp freeness decreases, and the steecht sizing degree increases as the pulp freeness increases. As the blending amount of the deinked waste paper pulp is increased, the degree of steecht size tends to decrease. As the blending amount of mechanical pulp is increased, the degree of steecht size tends to decrease. In addition, the steecht sizing degree increases as the ash content decreases, and the stet sizing degree tends to decrease as the ash content increases.

  In the present embodiment, a fluorescent brightener (hereinafter sometimes referred to as a fluorescent dye) may be used in order to improve the fluorescence intensity of newspaper. The method for applying the fluorescent brightening agent may be a method of adding it to the stock or a method of applying it to the surface of newsprint. However, in the case of the method of applying to the surface of newsprint, since a large amount of fluorescent whitening agent adheres to the surface of the newsprint and tends to adversely affect the fading, only the method of applying to the surface of newsprint is used. It is not preferable to improve the strength. In this embodiment, it is preferable to add a fluorescent brightening agent to the stock, and it is more preferable to add the fluorescent brightening agent to the stock without applying the fluorescent brightening agent to the surface of the newsprint. The fluorescent whitening agent to be used is not particularly limited, and a commonly used fluorescent whitening agent such as an anionic stilbene derivative can be used. Depending on the number of sulfone groups added to the stilbene derivative, 2 are classified as a ditype, 4 are classified as a tetratype, and 6 are classified as a hexatype. When added to a stock, the ditype or tetratype is preferred. In addition, when the fluorescence intensity of the newsprint exceeds 2, the color fading is adversely affected. However, when the fluorescence intensity is 0.1 or more, the whiteness and the apparent whiteness are enhanced. Therefore, the fluorescence intensity of newsprint when using a fluorescent brightening agent is preferably 0.1 to 2, more preferably 0.1 to 1.5, and even more preferably 0.1 to 1.0. Adjust as follows. When the specific addition rate of the optical brightener is exemplified, when added to the paper stock, 1 to 200 ppm is preferable with respect to the pulp, and 50 to 160 ppm is more preferable. Fluorescence intensity is based on JIS P 8148: 2001 “Paper, Paperboard and Pulp—Method of Measuring ISO Whiteness (Diffuse Blue Light Reflectance)” and when the 420 nm cutoff filter is not inserted in the optical path The whiteness when the filter is inserted is measured, and the whiteness (unit:%) when the filter is inserted is subtracted from the whiteness (unit:%) when the 420 nm cutoff filter is not inserted in the optical path.

  In the present embodiment, the yield improver, the drainage improver, the sulfuric acid band, the bulking agent, the wet paper strength enhancer, the coloring dye, the coloring pigment, and the pitch are included in the stock as long as the intended effect is not impaired. You may mix | blend a control agent etc. suitably. When making paper, a size press solution may be applied as described above. In addition to the externally added sizing agent, an external paper strength agent such as oxidized starch, a conductive agent, a coloring dye, etc. It can mix | blend suitably.

  In the present embodiment, newsprint paper is manufactured by making paper with a paper machine using the paper stock adjusted as described above. The paper machine is not particularly limited as long as it has a calendar device in front of the wire part and the reel, and various paper machines such as a long net paper machine, a circular net paper machine, and a twin wire paper machine can be used. it can. Further, the calendar device is not particularly limited, and a machine calendar or a soft calendar installed in front of the reel in a general paper machine can be used.

  In the newsprint manufacturing method according to this embodiment, no pigment coating layer is provided. In the present specification, the pigment coating layer refers to a coating layer provided by coating and drying a paint containing a white pigment and a binder. In the present embodiment, the surface of the newsprint is the surface of the newsprint that is exposed from the base paper or a size press.

  In the present embodiment, the tensile strength (vertical) of the newsprint is set to 3.0 kN / m or more, and the aspect ratio (vertical / horizontal) of the tensile strength is set to 1.0 to 2.5. By setting it as such a range, the paper break at the time of printing can be prevented. Here, “vertical” refers to the flow direction of the paper machine, and is sometimes referred to as the MD direction (Machine Direction). The term “horizontal” refers to a direction orthogonal to the flow direction of the paper machine, and is sometimes referred to as a CD direction (Cross Direction). Paper breakage during printing occurs mainly due to insufficient strength in the vertical direction of the paper and can not withstand the tension of the printing press, but even if the paper is torn or wrinkled, there are places where the paper has been torn or wrinkled. As a result, the paper breaks. By setting the tensile strength (longitudinal) to 3.0 kN / m or more, it is possible to withstand the tension of the printing press. Moreover, tear or wrinkle can be prevented by setting the aspect ratio (length / width) of the tensile strength to 1.0 to 2.5. If the aspect ratio (vertical / horizontal) of the tensile strength is less than 1.0, it becomes difficult to set the tensile strength (vertical) to 3.0 kN / m or more. On the other hand, when the aspect ratio of the tensile strength (vertical / horizontal) exceeds 2.5, the horizontal strength of the newsprint is insufficient, and the paper is likely to break due to wrinkling or tearing in the vertical direction. . The tensile strength (longitudinal) is more preferably 3.3 kN / m or more. The aspect ratio (length / width) of the tensile strength is more preferably 1.4 to 2.3.

  In order to set the tensile strength (vertical) of newsprint paper to 3.0 kN / m or more and the tensile strength aspect ratio (vertical / horizontal) to 1.0 to 2.5, in addition to preparing the stock Also, adjustment on the paper machine is required. One of the adjustment methods in a general paper machine is adjustment of the J / W ratio in the paper machine. The J / W ratio is the ratio of the speed at which the stock is ejected from the inlet of the paper machine (J) and the wire speed (W) of the paper machine, and is usually adjusted to make the paper texture uniform. In some cases, the tensile strength (longitudinal) may be adjusted. For example, when the fibers are arranged in a line, the tensile strength (vertical) can be increased, and the aspect ratio (vertical / horizontal) of the tensile strength can be increased. (Tensile strength (horizontal) tends to decrease). However, when making paper using the paper stock in the present embodiment, it is attempted to adjust the tensile strength (vertical) and the tensile strength aspect ratio (vertical / horizontal) to a predetermined range only by adjusting the J / W ratio. The condition of the J / W ratio (0.97 to 1.03) at which the formation is uniform is easily deviated, and the formation of the newsprint is deteriorated. Newspaper paper with poor texture is likely to have a paper shortage at the time of printing, possibly because there is a local location where the paper strength is insufficient. In addition, when the formation is poor, the ink-inking property of the printing ink is also inferior. Therefore, in the present embodiment, the J / W ratio is adjusted to make the paper texture uniform, and the tensile strength (vertical) of the newsprint and the aspect ratio of the tensile strength are adjusted only by adjusting the J / W ratio. It is not preferable to adjust with. In the present embodiment, the tensile strength (longitudinal) and the aspect ratio of the tensile strength of the newsprint are adjusted by the total draw from the wire part to the calendar device (hereinafter, sometimes referred to as total draw or total draw during paper making). It is preferable to do.

  Therefore, in this embodiment, the J / W ratio is set to 0.97 to 1.03, preferably 0.99 to 1.01 so that the formation is uniform, and the total draw is further adjusted. The tensile strength (vertical) of the newsprint is set to 3.0 kN / m or more, and the aspect ratio (vertical / horizontal) of the tensile strength is set to a range of 1.0 to 2.5. Here, the total draw from the wire part to the calendar device before the reel means the rate at which the web is stretched from the wire part through the press part and dryer part to the calendar device before the reel. The rate of increase of the pre-reel calendar speed relative to the part speed. Since the web is pulled by the reel, the moving speed of the web increases on the reel side. When the wire part speed is d and the pre-reel calendar speed is D, the total draw is {(D−d) / d} × 100. Since the tensile stress is applied in the vertical direction as the total draw increases, the aspect ratio increases as a result. The total draw in the present embodiment is 3.0 to 5.5%, preferably 3.5 to 5.0%. By setting it as this range, it can be adjusted to a desired aspect ratio. Unlike the adjustment with the J / W ratio, the adjustment with the total draw does not affect the formation because of the vertical tension during papermaking. If the total draw is less than 3.0%, the tensile strength (longitudinal) is insufficient. Also, the aspect ratio becomes small. When the total draw exceeds 5.5%, the strength of the newspaper in the lateral direction is insufficient, and the paper is likely to break due to wrinkling or tearing in the vertical direction.

In the present embodiment, the basis weight of the newsprint is preferably 45 to 60 g / m ² . More preferably 47~57g / ^{m 2.} If it is less than 45 g / m ² , the opacity is insufficient, and paper breaks may easily occur during printing. If it exceeds 60 g / m ² , even if the total draw is increased, the aspect ratio (vertical / horizontal) of the tensile strength may not be within a desired range.

  Next, the present invention will be described more specifically with reference to examples. However, the present invention is not limited to these examples. In the examples, “parts” and “%” represent “parts by mass” and “mass%”, respectively, unless otherwise specified. The number of added parts is a value in terms of solid content.

  The following evaluation was performed on the newspapers of the examples and comparative examples. The evaluation results are shown in Table 1. The evaluation method is as follows.

<Number of paper breaks during printing>
Using “TKS Color Top 7000CD” (manufactured by Tokyo Kikai Co., Ltd.) as an offset printer, four-color printing was performed in the order of ink, indigo red and yellow at a printing speed of 120,000 copies / hour. The number of times that a paper break occurred during 100,000 copies of printing was measured. The number of sheet breaks of 0 was regarded as a practical level, the number of sheet breaks of 1 was regarded as a practical lower limit, and 2 or more was regarded as unsuitable for practical use.

<Color fading>
Newspaper paper was irradiated for 8 hours at a radiation intensity of 0.5 W / m ² under a temperature of 40 ° C. and a humidity of 50% RH using a xenon light irradiation tester (Atlas, Ci-4000). By obtaining ΔE ^* , the degree of discoloration was evaluated according to the following criteria. In addition, according to the measurement method prescribed | regulated by JISZ8722: 2000 "color measurement method-reflection and transmission object color", the lightness index of the surface prescribed | regulated by JISZ8730: 2002 "color display method-color difference of object color" A method calculated from Equation 1 using L ^* and perceptual chromaticity index a ^* and b ^* was used. The lower the value of ΔE ^{*, the} less discoloration and the better the fading property. A case where ΔE ^* is 2.0 or less is regarded as a practical level, a case where ΔE ^* exceeds 2.0 and 3.5 or less is regarded as a practical lower limit level, and a case where ΔE ^* exceeds 3.5 is regarded as unacceptable. .
(Equation 1) ΔE ^* = √ ((L ^* x−L ^* ) ^ 2+ (a ^* x−a ^* ) ^ 2+ (b ^* x−b ^* ) ^ 2)
Values before irradiation: L ^* x, a ^* x, b ^* x
Value after irradiation: L ^* , a ^* , b ^*

<Tensile strength>
Tensile strength (longitudinal) and (lateral) were measured based on JIS P 8113: 2006 “Paper and paperboard—Testing method of tensile properties”. The aspect ratio was tensile strength (longitudinal) / tensile strength (horizontal).

<Opacity>
The opacity was measured based on JIS P 8149: 2000 “Paper and paperboard—Opacity test method”.

<Stick human sizing degree>
Based on JIS P 8122: 2004 “Paper and paperboard—Sizing test method”, the Steecht sizing degree was measured.

<Ash content>
Ash content was measured based on JIS P 8251: 2003 “Paper, paperboard and pulp-ash content test method—525 ° C. combustion method”.

<Fluorescence intensity>
Based on JIS P 8148: 2001 “Paper, Paperboard and Pulp—Method of Measuring ISO Whiteness (Diffusion Blue Light Reflectance)”, a spectroscopic white difference meter PF-10 manufactured by Nippon Denshoku Industries Co., Ltd. is used, and a pulse xenon lamp Was used as a light source, and in the whiteness measurement, the fluorescence intensity was obtained by subtracting the whiteness when the filter was inserted from the whiteness when the 420 nm cut-off filter was not inserted in the optical path.

<Ground evaluation>
The visual impression of the newspaper paper was evaluated as follows.
A: Overall is very uniform and good (practical level)
○: Uniform and good overall (practical level)
△: Slightly uneven but usable (lower limit for practical use)
×: Unusable due to poor formation (unsuitable for practical use)

Example 1
100 parts of hardwood bleached kraft pulp (LBKP) prepared to 400 mL of CSF is added to water to make a pulp slurry, and light calcium carbonate (made by Okutama Kogyo Co., Ltd.) is added to the pulp slurry so that the ash content of the newspaper after paper making becomes 13%. , TP121S), and 1.0 parts of cationized starch (trade name: Neotac 30T / manufactured by Nippon Food Processing Co., Ltd.) as an internal paper strength agent, fluorescent dye (trade name: Keikor KHNL / manufactured by Nisso Corporation) .01 parts, sulfuric acid band 1.0 part, neutral rosin emulsion sizing agent (trade name: New Size 738 / manufactured by Harima Chemicals), yield improver (trade name: High Holder C503 / Kurita Industry Co., Ltd.) (Manufactured) 0.02 part was added to adjust the stock. This stock is made with an on-top type twin-wire paper machine, and 14% of oxidized starch (MS3800, manufactured by Nippon Shokuhin Kako Co., Ltd.) is added as an external paper strength agent with a rod metering type size press. After applying and drying a size press solution of 0.03% Kettei dimer (hereinafter abbreviated as AKD) on both sides of the base paper so that the solid content mass per side is 1.0 g / m ² , a linear pressure of 50 kN / A flattening process using a machine calendar was performed under the conditions of m, and newsprint paper with a basis weight of 50 g / m ² was obtained. The total draw was 4.1% and the J / W ratio was 1.00.

(Example 2)
Newspaper was obtained in the same manner as in Example 1 except that the freeness of the hardwood bleached kraft pulp was changed from 400 mL to 350 mL.

(Example 3)
Newspaper was obtained in the same manner as in Example 1 except that the freeness of the hardwood bleached kraft pulp was changed from 400 mL to 480 mL.

Example 4
Newspaper was obtained in the same manner as in Example 1 except that the number of added parts of cationized starch (trade name: Neotac 30T / manufactured by Nippon Food Processing Co., Ltd.) was changed from 1.0 part to 0.4 part.

(Example 5)
Newspaper was obtained in the same manner as in Example 1 except that the number of added parts of cationized starch (trade name: Neotac 30T / manufactured by Nippon Food Processing Co., Ltd.) was changed from 1.0 part to 1.3 parts.

(Example 6)
Newspaper paper was obtained in the same manner as in Example 1 except that the number of added fluorescent dyes (trade name: Keicol KHNL / Nissho Shoji Co., Ltd.) was changed from 0.01 parts to 0.005 parts.

(Example 7)
Newspaper was obtained in the same manner as in Example 1 except that the number of added fluorescent dyes (trade name: Keicoal KHNL / Nisso Corporation) was changed from 0.01 parts to 0.02 parts.

(Example 8)
Newspaper paper was obtained in the same manner as in Example 1 except that the number of added parts of the neutral rosin emulsion sizing agent (trade name: New Size 738 / manufactured by Harima Chemicals Co., Ltd.) was changed from 0.2 parts to 0.05 parts.

( Reference Example 9)
Newspaper was obtained in the same manner as in Example 1 except that the total draw during paper making was changed from 4.1% to 3.4%.

(Example 10)
Newspaper was obtained in the same manner as in Example 1 except that the total draw during paper making was changed from 4.1% to 4.7%.

(Example 11)
Newspaper paper was obtained in the same manner as in Example 1 except that the number of hardwood bleached kraft pulp added was changed from 100 parts to 90 parts, and further 10 parts of newspaper deinked pulp was added.

(Example 12)
Newspaper was obtained in the same manner as in Example 1 except that the number of added hardwood bleached kraft pulp was changed from 100 parts to 90 parts and 10 parts of mechanical pulp was further added.

(Example 13)
Newspaper was obtained in the same manner as in Example 1 except that light calcium carbonate (TP121S, manufactured by Okutama Kogyo Co., Ltd.) was added so that the ash content of the newspaper was 13% to 8%.

(Example 14)
Newspaper paper was obtained in the same manner as in Example 1 except that light calcium carbonate (TP121S, manufactured by Okutama Kogyo Co., Ltd.) was added so that the ash content of the newspaper was 13% to 16%.

(Comparative Example 1)
Newspaper was obtained in the same manner as in Example 1 except that the freeness of the hardwood bleached kraft pulp was changed from 400 mL to 520 mL.

(Comparative Example 2)
Newspaper was obtained in the same manner as in Example 1 except that the freeness of the hardwood bleached kraft pulp was changed from 400 mL to 300 mL.

(Comparative Example 3)
Newspaper was obtained in the same manner as Example 1 except that cationized starch (trade name: Neotac 30T / manufactured by Nippon Food Processing Co., Ltd.) was not added.

(Comparative Example 4)
Newspaper was obtained in the same manner as in Example 1 except that the number of added parts of cationized starch (trade name: Neotac 30T / manufactured by Nippon Food Processing Co., Ltd.) was changed from 1.0 part to 2.0 parts.

(Comparative Example 5)
Newspaper was obtained in the same manner as in Example 1 except that light calcium carbonate (TP121S, manufactured by Okutama Kogyo Co., Ltd.) was added so that the ash content of the newspaper was 13% to 4%.

(Comparative Example 6)
Newspaper was obtained in the same manner as in Example 1 except that light calcium carbonate (TP121S, manufactured by Okutama Kogyo Co., Ltd.) was added so that the ash content of the newspaper was 13% to 20%.

(Comparative Example 7)
Newspaper was obtained in the same manner as in Example 1 except that 100 parts of mechanical pulp was added instead of 100 parts of hardwood bleached kraft pulp.

(Comparative Example 8)
Newspaper was obtained in the same manner as in Example 1 except that 100 parts of deinked newspaper pulp was added instead of 100 parts of hardwood bleached kraft pulp.

(Comparative Example 9)
Newspaper was obtained in the same manner as in Example 1 except that the total draw during paper making was changed from 4.1% to 2.9%.

(Comparative Example 10)
Newspaper was obtained in the same manner as in Example 1 except that the total draw during paper making was changed from 4.1% to 5.8%.

(Comparative Example 11)
Newspaper was obtained in the same manner as in Example 1 except that the J / W ratio at the time of papermaking was changed from 1.00 to 0.95.

(Comparative Example 12)
Newspaper was obtained in the same manner as in Example 1 except that the J / W ratio at the time of papermaking was changed from 1.00 to 1.05.

  As is clear from Table 1, all of the newsprints obtained in Examples 1 to 14 had a small number of paper breaks during printing, and the newsprints had good fading. The newsprint obtained in Comparative Example 1 excessively weakened the beating of the pulp, so that the strength of the newsprint decreased and paper breaks occurred frequently. The newsprint obtained in Comparative Example 2 excessively strengthened the degree of beating of the pulp, resulting in poor water drainage on the wire and worsening of the texture, resulting in an increase in the number of paper breaks during printing. Also, the opacity decreased in terms of quality. In the newsprint obtained in Comparative Example 3, since the internal paper strength agent was not used, the strength of the newsprint was lowered and paper breaks occurred frequently. In addition, the fixing effect of the neutral rosin sizing agent was lost, and the degree of sizing was greatly reduced. In the newsprint obtained in Comparative Example 4, since the internal paper strength agent was excessively added, the aggregation of the raw materials became strong and the formation deteriorated, resulting in an increase in the number of paper breaks during printing. The newsprint obtained in Comparative Example 5 lacked ash and deteriorated opacity. The newsprint obtained in Comparative Example 6 had an excess of ash, and water drainage on the wire worsened and the formation deteriorated, the strength of the newsprint decreased, and paper breaks occurred frequently. Since the newsprint obtained in Comparative Example 7 used a lot of mechanical pulp, the strength of the newsprint decreased and paper breaks occurred frequently. Moreover, the fading property deteriorated. Since the newsprint obtained in Comparative Example 8 used a lot of deinked waste paper pulp, the strength of the newsprint decreased and paper breaks occurred frequently. In addition, the amount of fluorescent dye brought into the waste paper increased, and the color fading deteriorated. The newsprint obtained in Comparative Example 9 had a total draw that was kept too low, so the aspect ratio was small, and it was easy to stretch when feeding newsprint during printing, and paper breakage was likely to occur. Since the newsprint obtained in Comparative Example 10 had a large total draw, the aspect ratio of the tensile strength was too high, and as a result, the newsprint was easily broken in the vertical direction and the number of paper cuts increased. Also, due to the large tension during paper making, paper breaks frequently occurred, making it impossible to produce a continuous product. The newsprints obtained in Comparative Examples 11 and 12 tried to control the aspect ratio of the tension only by the J / W ratio, but the formation was greatly disturbed, and both were papers that were likely to break during printing. It was.

Claims (4)

A method for producing newsprint without a pigment coating layer, which uses a paper stock containing pulp, a filler and an internal paper strength agent, and makes a paper machine with a wire part and a calendar device before the reel. ,
90% by mass or more of the pulp is bleached kraft pulp,
The pulp freeness (CSF) is 350-490 mL,
The filler is added to the stock so that the ash content in the newsprint is 8 to 16% by mass,
The internal paper strength agent is added in an amount of 0.4 to 1.3% by mass with respect to the pulp.
Calendar processing is performed by the calendar device,
The J / W ratio at the time of paper making is in the range of 0.97 to 1.03, the total draw from the wire part to the calendar device before the reel is 3.0 to 5.5%, and the tensile strength ( A method for producing newsprint, characterized in that the longitudinal ratio is 3.0 kN / m or more and the aspect ratio (vertical / width) of the tensile strength of the newsprint is 1.9 to 2.5.   The method for producing newsprint according to claim 1, wherein the total content of mechanical pulp and deinked waste paper pulp in the pulp is less than 10% by mass.   The newsprint paper manufacturing method according to claim 1 or 2, wherein a sizing degree of the newsprint paper is set to 3 seconds or more.   The method for producing newsprint according to any one of claims 1 to 3, wherein a fluorescent brightening agent is added to the paper stock, and the fluorescent intensity of the newsprint is 0.1-2.