JP2016053223A - Base paper for slip sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide base paper for a slip sheet, which enables easy recycling of pulp.SOLUTION: A base paper for a slip sheet is formed by combining a surface layer, one or a plurality of middle layer(s), and a back layer, having a basis weight of 500 g/mor more and 900 g/mor less, a density of 0.65 g/cmor more, and tensile strength in a longitudinal direction of 40 kN/m or more. The surface layer, the middle layer, and the back layer contain 80 mass% or more of coniferous tree pulp, and a degree of drainage of disintegrated pulp obtained by disintegrating the layers is 400 cc or more and 600 cc or less. The coniferous tree kraft pulp is preferably non-bleached pulp, and Kappa value of the non-bleached pulp is preferably 20 or more and 70 or less.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a slip sheet base paper.

  In some cases, a slip sheet (sheet pallet) is used as an alternative to a pallet, which is a table used for transporting and storing cargo. The slip sheet is placed on the slip sheet and the end thereof is pulled, so that the slip sheet moves on the floor or the transport device.

  Since the slip sheet requires high tensile strength, the conventional slip sheet is mainly formed of a resin. Some slip sheets are based on paper, but a layer containing resin fibers is provided to reinforce the paper (see JP-A-5-278740). A slip sheet in which a plurality of paper base materials are laminated with a resin adhesive has also been put into practical use. Furthermore, it is also possible to reinforce by laminating a resin layer on the paper surface.

  Thus, a slip sheet in which a paper base material and a resin are laminated is expensive because the manufacturing process is complicated. Ordinary paper can be regenerated by dissolving and recovering the pulp, but a slip sheet having a resin layer is difficult to recover because it is not easy to recover the pulp. Furthermore, the slip sheet having a resin layer has a problem that the resin layers are likely to be blocked with each other and the workability is lowered during transportation and storage of the slip sheet.

JP-A-5-278740

  In view of the above disadvantages, an object of the present invention is to provide a slip sheet base paper that has sufficient strength for slip sheet use, does not cause a blocking problem, and can easily regenerate pulp.

The invention made in order to solve the above problems is a slip sheet base paper formed by combining a surface layer, one or a plurality of middle layers and a back layer, and has a basis weight of 500 g / m ² or more and 900 g / m ^2. The density is 0.65 g / cm ³ or more, the tensile strength in the longitudinal direction is 40 kN / m or more, the surface layer, the middle layer and the back layer contain 80% by mass or more of softwood kraft pulp, and disaggregation The freeness of the disaggregated pulp obtained in this way is 400 cc or more and 600 cc or less.

The slip sheet base paper includes a surface layer, one or more middle layers and a back layer each containing 80% by mass or more of softwood kraft pulp in the raw pulp, and a disaggregated pulp obtained by disaggregating the slip sheet base paper. When the freeness is within the above range, even if the basis weight is 900 g / m ² or less, the tensile strength of 40 kN / m or more required as a slip sheet is possible without reinforcing with resin. And For this reason, since the base paper for slip sheets can be provided at a low cost and does not require reinforcement with a resin, the problem of blocking between resins does not occur, and the pulp can be easily regenerated in the same manner as ordinary waste paper.

  The softwood kraft pulp may be unbleached pulp having a copper number of 20 or more and 70 or less. Thus, the softwood kraft pulp is an unbleached pulp having a kappa number in the above range, so that the ester fiber compound of sterol contained in the pulp allows the pulp fibers to exhibit good lubricity and moderate rigidity. It has folding resistance and higher strength due to the action of lignin remaining in the pulp.

  The aspect ratio of the longitudinal wave propagation velocity of the longitudinal ultrasonic pulse to the longitudinal wave propagation velocity of the transverse ultrasonic pulse in the slip sheet base paper is preferably 1.2 or more and 2.2 or less, and the tensile strength in the transverse direction As a ratio (Y / T ratio) to the tensile strength in the longitudinal direction, 0.4 or more and 0.6 or less are preferable. As described above, the aspect ratio between the longitudinal direction and the transverse direction of the longitudinal wave propagation velocity of the ultrasonic pulse and the ratio between the transverse direction and the longitudinal direction of the tensile strength (Y / T ratio) are within the above range, When the load to be placed is light, the slip sheet using the slip sheet base paper hardly breaks or twists the slip sheet even if it is pulled and moved in the lateral direction.

  Here, “basis weight” is a value measured in accordance with JIS-P-8124 (2005). “Density” is a value measured according to JIS-P-8118 (1998). “Tensile strength” is a value measured according to JIS-P-8113 (2009). “Disaggregation” means an operation performed in accordance with JIS-P-8220-1 (2012). “Freeness” is a value measured according to JIS-P-8121 (1995). “Kappa number” is a value measured according to JIS-P-8211 (2011). The “longitudinal wave propagation velocity of the ultrasonic pulse” is a value measured by “SST-210 (SONIC SHEEET TESTER-210)” of Nomura Corporation. The “vertical direction” means the paper making direction (MD), and the “horizontal direction” means the direction perpendicular to the vertical direction (CD: Cross Direction).

  As described above, the slip sheet base paper of the present invention uses softwood kraft pulp, and therefore has sufficient strength in slip sheet use without reinforcement by a resin layer or the like, and does not cause blocking problems. In addition, it is possible to provide a slip sheet base paper in which pulp can be easily recycled.

It is typical sectional drawing which shows the structure of the base paper for slip sheets of one Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.

[Slip sheet base paper]
The slip sheet base paper of FIG. 1 is formed by making a surface layer 1, a plurality of middle layers 2 and a back layer 3 together. In this way, by making multiple layers and making paper, it is possible to easily obtain the strength required for the slip sheet without performing reinforcement by pasting another paper or applying resin.

  As a minimum of the number of middle layers, 2 layers are preferred and 4 layers are more preferred. On the other hand, the upper limit of the number of intermediate layers is preferably 7 layers, and more preferably 5 layers. If the number of intermediate layers is less than the lower limit, the strength of the slip sheet base paper may be insufficient. Moreover, when the number of middle layers exceeds the said upper limit, there exists a possibility that productivity may fall or the manufacturing cost of the said slip sheet base paper may become high too much.

(Raw pulp)
The surface layer 1, the middle layer 2, and the back layer 3 each contain conifer kraft pulp in the raw material pulp. Softwood kraft pulp itself has a relatively high strength, and has softness derived from porous properties compared to hardwood kraft pulp. Therefore, the slip sheet base paper has the necessary strength and abrasion resistance. Thus, twisting of the slip sheet base paper surface due to abrasion can be prevented.

  As the softwood kraft pulp, softwood unbleached kraft pulp is particularly preferable. Softwood kraft pulp has a relatively high strength, especially softwood unbleached kraft pulp from which not much lignin and sterol ester compounds have been removed has a higher strength due to the action of lignin remaining in the pulp, and in the pulp The sterol ester compound remaining in the pulp fiber exhibits good lubricity and moderate rigidity and fold resistance. For this reason, big intensity | strength and suitable workability | operativity can be provided to the said base paper for slip sheets by using a softwood unbleached kraft pulp.

  The softwood kraft pulp is preferably unbleached pulp (NUKP). The lower limit of the copper value of this softwood kraft pulp is preferably 20, more preferably 40, and even more preferably 50. On the other hand, the upper limit of the kappa number of the softwood kraft pulp is preferably 70, more preferably 65. If the kappa number of the softwood kraft pulp is less than the above lower limit, the strength may be insufficient because the content of lignin in the pulp is low, and the rigidity of the sterol ester compound in the pulp is low, so that it is moderately rigid Or breakage resistance may not be obtained, and workability may be reduced. Also, if the kappa value of the softwood kraft pulp exceeds the above upper limit, the flexibility of the pulp fiber is reduced and the folding resistance is low, resulting in a decrease in density during paper layer formation, and the adhesiveness between the pulp fibers is insufficient. On the contrary, there is a possibility that the strength of the slip sheet base paper becomes insufficient, or that a gap is formed inside the slip sheet base paper, causing troubles such as unexpected strength reduction due to water absorption.

  The lower limit of the content of softwood kraft pulp in the raw material pulp is 80% by mass, preferably 90% by mass or more, and more preferably 100% by mass. On the other hand, the upper limit of the content of softwood kraft pulp in the raw material pulp is 100% by mass. When the content of the softwood kraft pulp is less than the above lower limit, the content of other types of pulp with low strength is relatively large, so that the tensile strength, rigidity, or slipperiness of the slip sheet base paper is May be insufficient.

  Although softwood kraft pulp is used as the main raw material, it does not affect the solution of the present invention. For example, hardwood bleached kraft pulp (LBKP), hardwood unbleached kraft pulp (LUKP), hardwood semi-bleached kraft pulp (LSBKP), Chemical pulp such as hardwood sulfite pulp, coniferous sulfite pulp, Stone Grand Pulp (SGP), Pressurized Stone Grand Pulp (PGW), Refiner Grand Pulp (RGP), Thermomechanical Pulp (TMP), Chemi Grand Pulp (CGP), Groundwood Mechanical pulp such as pulp (GP), thermomechanical pulp (TMP), tea waste paper, craft envelope waste paper, magazine waste paper, newspaper waste paper, leaflet waste paper, office waste paper, corrugated waste paper, upper white waste paper, Kent waste paper, imitation waste paper, lottery paper Disintegrated waste paper pulp manufactured from waste paper, etc. One or more types of various known pulps such as deinked waste paper pulp, disaggregation / deinking / bleached waste paper pulp, or pulp chemically or mechanically produced from non-wood fibers such as kenaf, hemp, and straw Can be appropriately selected and used.

  The slip sheet base paper may contain an internal additive as necessary in each layer. Examples of the internal additives include chemical fixing agents such as sulfuric acid bands, sizing agents such as rosin, paper strength enhancers such as starch, drainage / yield improvers such as polyacrylamide, and water resistance of polyamide polyamine epichlorohydrin resins. Agents, antifoaming agents, basic dyes, acid dyes, anionic direct dyes, cationic direct dyes, and the like can be appropriately used as long as they do not affect the solution of the problems of the present invention.

  The slip sheet base paper can also contain, in particular, a paper strength enhancer, a sizing agent and a chemical fixing agent as internal additives.

  Inclusion of a paper strength enhancer contributes to improving the strength of the slip sheet base paper, but may cause excessive bending, breakage, abrasion, etc. by making the slip sheet base paper too rigid. It is preferable to increase the content of the paper strength enhancer in the inner layer rather than the surface layer.

  As the paper strength enhancer, one or two or more kinds conventionally used for paper use, for example, polyacrylamide (PAM), oxidized starch, cationized starch and the like can be appropriately selected and used.

  The inclusion of the sizing agent suppresses moisture absorption of the slip sheet base paper and prevents strength reduction due to moisture absorption.

  As the sizing agent, for example, one or more of rosin-based sizing agent, alkyl ketene dimer, styrene maleic acid, alkenyl succinic anhydride and the like may be appropriately selected and used within a range that does not affect the solution of the present invention. it can. These sizing agents have the effect of increasing the slipperiness of the slipsheet base paper, but by increasing the slipperiness, the slippage of the slipsheet base paper using the slipsheet base paper improves the slippage, There is a possibility that the inconvenience of causing slipping of the load placed on the slip sheet may occur. For this reason, as the sizing agent, a rosin-based sizing agent having a relatively small effect of increasing the slipperiness of the slip sheet base paper is particularly preferable.

  The chemical fixing agent is used for fixing a sizing agent or the like to the pulp.

  The chemical fixing agent is selected according to the type of the other internal additive, and for example, a sulfuric acid band or the like can be used.

The lower limit of the basis weight of the slip sheet base paper is 500 g / m ² and preferably 550 g / m ² . On the other hand, the upper limit of the basis weight of the slip sheet base paper is 900 g / m ² and preferably 700 g / m ² . If the basis weight of the slip sheet base paper is less than the lower limit, the tensile strength of the slip sheet base paper may be insufficient. Further, if the basis weight of the slip sheet base paper exceeds the above upper limit, the suitability for processing into the slip sheet may be insufficient, or the slip sheet base paper may be excessively expensive. There is a risk that the slip sheet using the base paper for sheet lacks the flexibility and the handling property is deteriorated.

The lower limit of the density of the base paper for the slip sheet is 0.65 g / cm ^3, preferably ^{0.67g / cm 3, 0.7g / cm} 3 is more preferable. On the other hand, the upper limit of the density of the base paper for the slip sheet is preferably 0.85 g / cm ^3, more preferably 0.8 g / cm ^3, more preferably 0.77 g / cm ^3. If the density of the slip sheet base paper is less than the above lower limit, the tensile strength of the slip sheet base paper may be insufficient, or the surface layer may be easily worn or worn when the slip sheet is used. Further, when the density of the slip sheet base paper exceeds the upper limit, the flexibility of the slip sheet base paper becomes insufficient, and the folding resistance may be lowered.

  The lower limit of the tensile strength in the longitudinal direction of the slip sheet base paper is 40 kN / m, preferably 50 kN / m. When the tensile strength in the longitudinal direction of the slip sheet base paper is less than the lower limit, the slip sheet using the slip sheet base paper may be broken when handled by using a push-pull forklift.

  The lower limit of the freeness of the disaggregated pulp obtained by understanding the slip sheet base paper is 400 cc, preferably 450 cc, more preferably 500 cc. On the other hand, the upper limit of the freeness of the disaggregated pulp is 600 cc, preferably 580 cc, and more preferably 560 cc. When the freeness of the disaggregated pulp is less than the lower limit, the fibers are cut by excessive beating, and the slip sheet base paper may have insufficient tensile strength, or the slip sheet base paper may be used. There is a risk that the frictional resistance at the time of using the slip sheet will be insufficient or twisting may occur. Further, when the freeness of the disaggregated pulp exceeds the upper limit, the slip sheet base paper may be bulky, or a gap may be formed inside the slip sheet base paper, resulting in unexpected strength reduction due to water absorption. In addition, folding resistance may be reduced. Moreover, since the freeness of the disaggregated pulp affects the surface properties such as the smoothness of the slip sheet base paper described later, the freeness of the disaggregated pulp is within the above range in order to obtain the desired surface properties. It is preferable to make adjustments.

  The lower limit of the aspect ratio of the longitudinal wave propagation velocity of the longitudinal ultrasonic pulse of the slip sheet base paper to the longitudinal wave propagation velocity of the transverse ultrasonic pulse is preferably 1.2, and more preferably 1.5. On the other hand, the upper limit of the aspect ratio of the longitudinal ultrasonic wave propagation velocity of the longitudinal ultrasonic pulse of the slip sheet base paper to the longitudinal wave propagation velocity of the transverse ultrasonic pulse is preferably 2.2, more preferably 1.8. preferable. If the aspect ratio of the longitudinal ultrasonic wave propagation velocity of the slip sheet base paper to the longitudinal ultrasonic wave propagation velocity of the transverse ultrasonic pulse is less than the lower limit, the longitudinal strength of the slip sheet base paper May become insufficient. In addition, when the aspect ratio of the longitudinal wave propagation speed of the longitudinal ultrasonic pulse of the slip sheet base paper to the longitudinal wave propagation speed of the transverse ultrasonic pulse exceeds the upper limit, the transverse direction of the slip sheet base paper The strength may be insufficient.

  In order to set the aspect ratio of the longitudinal wave propagation speed of the longitudinal ultrasonic pulse of the slip sheet base paper to the longitudinal wave propagation speed of the transverse ultrasonic pulse within the above range, the longitudinal ultrasonic pulse is used. It is preferable to make paper using a round net that easily increases the longitudinal wave propagation speed. A round net paper machine is a paper machine using a forward-flow type round net pad and a reverse-flow type round net pad, and is widely used as a manufacturing machine for household paper and multi-layered paper. The aspect ratio of wave propagation speed is relatively high, typically 2.5 or more and 3.5 or less. When making the slip sheet paper using a round net paper machine, the aspect ratio of the longitudinal wave propagation speed of the ultrasonic pulse can be adjusted by changing the paper making speed, raw material concentration, cylinder suction, etc. Is possible. In addition, when making the slip sheet paper using a long net paper machine, the aspect ratio of the longitudinal wave propagation speed of the ultrasonic pulse is the ratio of the raw material jet speed (jet speed) and the wire speed during paper making. It is possible to adjust by changing (J / W ratio), landing point of the jet, degree of amplitude of shaking, and the like.

  The lower limit of the ratio of the tensile strength in the horizontal direction to the tensile strength in the vertical direction (Y / T ratio) of the slip sheet base paper is preferably 0.4, more preferably 0.45, and further 0.46. preferable. On the other hand, the upper limit of the ratio of the transverse tensile strength to the longitudinal tensile strength is preferably 0.6, more preferably 0.55, and even more preferably 0.53. When the ratio of the tensile strength in the transverse direction to the tensile strength in the longitudinal direction is less than the lower limit, the slip sheet using the slip sheet base paper may be easily twisted due to wear or abrasion. There is a risk of tearing when used. Moreover, when the ratio of the tensile strength in the transverse direction to the tensile strength in the longitudinal direction exceeds the upper limit, the tensile strength in the longitudinal direction may not be sufficiently increased.

  The lower limit of the Beck smoothness on the front and back surfaces of the slip sheet base paper is preferably 0.5 seconds, more preferably 1 second, and even more preferably 2 seconds. On the other hand, the upper limit of the Beck smoothness on the front and back surfaces of the slip sheet base paper is preferably 7 seconds, more preferably 5 seconds, and even more preferably 3.5 seconds. When the Beck smoothness of the front and back surfaces of the slip sheet base paper is less than the lower limit, paper dust and twist are likely to occur due to rubbing with the floor surface during transportation, and the product life may be shortened. In addition, when the Beck smoothness of the front and back surfaces of the slip sheet base paper exceeds the above upper limit, when the slip sheet using the slip sheet base paper is used, excessive friction between the floor surface and the gantry, etc. There is a risk that the conveyance becomes difficult, the surface is slippery, and the load slips or collapses from the slip sheet. Here, the “Beck smoothness” is a value measured in accordance with JIS-P-8119 (1998).

  The upper limit of the difference in Beck smoothness between the front and back surfaces of the slip sheet base paper is preferably 4 seconds, and more preferably 2.8 seconds. If the difference in Beck smoothness between the front and back surfaces exceeds the above upper limit, the difference in slipperiness between the front and back sides of the slip sheet using the slip sheet base paper becomes large. There is a risk of problems such as cargo collapse.

  The upper limit of the static friction coefficient in the papermaking direction on the front and back surfaces of slip sheet base paper containing the softwood kraft pulp as the main raw material is preferably 0.55, and more preferably 0.52. On the other hand, the lower limit of the static friction coefficient in the paper making direction on the front and back surfaces of the slip sheet base paper is preferably 0.25, and more preferably 0.28. If the static friction coefficient exceeds the above upper limit, when using a slip sheet using the slip sheet base paper, excessive friction may occur between the floor surface and a gantry and the conveyance may be difficult. There is a risk of causing breakage of the slip sheet using the base paper for sheet. Further, when the static friction coefficient is less than the lower limit, there is a possibility that the load placed on the slip sheet using the slip sheet base paper is likely to slip or collapse. Here, the “static friction coefficient” is a value measured according to JIS-P-8147 (2010).

  Moreover, as an upper limit of the difference of the static friction coefficient of the surface of the said slip sheet base paper, and a back surface, 0.15 is preferable and 0.12 is more preferable. When the difference in the coefficient of static friction between the front and back surfaces exceeds the above upper limit, the difference in slipperiness between the front and back sides of the slip sheet using the slip sheet base paper is large. There is a risk of malfunction.

  Although coating may be performed on the front and back surfaces of the slip sheet base paper, resin coating that prevents pulp regeneration is not performed. Note that a release agent or the like may be appropriately applied to the front and back surfaces of the slip sheet base paper as long as the configuration of the present invention for improving the suitability of the apparatus such as a calendar is not deviated.

The upper limit of the regular reflection smoothness of the front and back surfaces of the slip sheet base paper is preferably 32 μm, and more preferably 28 μm. The regular reflection smoothness is an index indicating flatness under a predetermined pressure, and is suitable as an index for evaluating the flatness when a load is applied to the sheet like a slip sheet. When the regular reflection smoothness of the front and back surfaces of the slip sheet base paper exceeds the upper limit, the friction of the slip sheet using the slip sheet base paper becomes excessive, and the slip sheet breaks due to excessive force being applied during use. There is a risk. The “regular reflection smoothness” is measured by using a microtopograph manufactured by Toyo Seiki Seisakusho under pressure of 24.4 kg / cm ^{2 to} one surface of a prism and using light having a wavelength of 0.5 μm. Rp value is meant.

  The surface properties such as the Beck smoothness, static friction coefficient, and regular reflection smoothness of the base paper for the slip sheet can be adjusted by physical treatment such as flattening treatment. By using a softwood unbleached kraft pulp having a kappa value within the range, it becomes easy to adjust the surface property to a desired range.

The upper limit of the surface and the back surface of the Bristow water absorption of the slip sheet base paper, preferably ^{400mL / m 2, 300mL / m} 2 is more preferable. The Bristow water absorption is suitable as an index of the ease of twisting and breaking due to water wetting of the slip sheet base paper. When the Bristow water absorption of the slip sheet base paper exceeds the above upper limit, the strength of the slip sheet base sheet is reduced due to moisture absorption, and there is a risk of breakage when used as a slip sheet. “Bristow water absorbency” means the JAPAN TAPPI paper pulp test method no. 51 (2000) “Paper and paperboard—Liquid absorbability test method—Bristow method”, using distilled water as a liquid and a value measured as a liquid transfer amount at an absorption time of 20 ms.

  The lower limit of the air permeability of the slip sheet base paper is preferably 20 seconds, and more preferably 30 seconds. On the other hand, the upper limit of the air permeability of the slip sheet base paper is preferably 80 seconds, and more preferably 60 seconds. The air permeability is an index of the strength of the slip sheet base paper. When the air permeability of the slip sheet base paper is less than the lower limit, the density of the slip sheet base paper may be reduced and excessively bulky. In addition, when the air permeability of the slip sheet base paper exceeds the above upper limit, the ratio of the low-strength pulp becomes high, and there is a possibility that sufficient strength cannot be obtained. The “air permeability” is a value measured in accordance with JIS-P-8117 (2009).

<Advantages>
The base paper for slip sheet uses a softwood kraft pulp of 80% by mass or more as a raw material pulp, and is provided with the above-mentioned conditions such as making paper in multiple layers, thereby avoiding an increase in cost such as increasing the basis weight. The strength required for the slip sheet is obtained without reinforcement. Thus, since the slip sheet base paper is not reinforced with resin, the pulp of the used slip sheet can be easily regenerated.

[Other Embodiments]
The said embodiment does not limit the structure of this invention. Therefore, in the above-described embodiment, the components of each part of the above-described embodiment can be omitted, replaced, or added based on the description of the present specification and the common general knowledge, and they are all interpreted as belonging to the scope of the present invention. Should.

  For example, in the above embodiment, the slip sheet base paper has a small difference in smoothness and static friction coefficient so that the slip sheet using the slip sheet base paper can be used even if the front and back sides are reversed. The paper may be made so that the smoothness of the front and back surfaces is different.

  Thus, when providing the difference in smoothness of front and back, as a minimum of the absolute value of the fiber orientation angle of the surface layer of the base paper for the slip sheet, 3 ° is preferable and 5 ° is more preferable. On the other hand, the upper limit of the absolute value of the fiber orientation angle of the surface layer of the slip sheet base paper is preferably 10 °, more preferably 8 °. When the absolute value of the fiber orientation angle of the surface layer is less than the above lower limit, the surface of the slip sheet using the slip sheet base paper is easily slid in the vertical direction, and there is a risk of collapse of the load during conveyance. Moreover, when the absolute value of the fiber orientation angle of the surface layer exceeds the above upper limit, the tensile strength in the longitudinal direction of the slip sheet surface layer using the slip sheet base paper may be insufficient. The fiber orientation angle is adjusted by adjusting the ratio of the raw material ejection speed (jet speed) to the wire speed (J / W ratio), the landing point of the jet, and the amplitude of shaking in the manufacturing process of the slip sheet base paper. Adjustment is possible by changing the degree.

  Moreover, as a minimum of the absolute value of the fiber orientation angle | corner of the back layer of the said base paper for slip sheets, 0.5 degree is preferable and 0.7 degree is more preferable. On the other hand, the upper limit of the absolute value of the fiber orientation angle of the back layer of the slip sheet base paper is preferably 3 °, more preferably 2.5 °. When the absolute value of the fiber orientation angle of the back layer is less than the lower limit, the tensile strength in the lateral direction of the slip sheet using the slip sheet base paper may be insufficient. Moreover, when the absolute value of the fiber orientation angle of the back layer exceeds the above upper limit, the friction on the back surface of the slip sheet base paper may be excessive.

  EXAMPLES Hereinafter, although this invention is explained in full detail based on an Example, this invention is not interpreted limitedly based on description of this Example.

  Under the conditions shown in Table 1, Examples 1 to 11 and Comparative Examples 1 to 5 of slip sheet base paper having a surface layer, a plurality of middle layers and a back layer were made.

  In Examples 1 to 11 and Comparative Examples 1 to 5, the front and back layer slurries for forming the front layer and the back layer and the middle layer slurries for forming a plurality of middle layers were adjusted, respectively. Used to make paper.

  As raw material pulp for the front and back layer slurry and the middle layer slurry, a plurality of types of softwood unbleached kraft pulp (NUKP) and corrugated waste paper pulp (WP) having different kappa numbers were used. In addition, the slurry for the front and back layers and the slurry for the middle layer are 35 kg / t of sulfuric acid band, 40 kg / t of “Harmide RB-28” from Harima Kasei Co., Ltd. as a paper strength enhancer, “AL1344” was added at 15 kg / t.

  For the surface layer and the back layer papermaking, conditions are set so that the total basis weight of the surface layer and the back layer is the value shown in the table, and in the middle layer papermaking, the total basis weight of one or more middle layers is the value shown in the table. The conditions were set as follows.

  About Examples 1-11 of the said base paper for slip sheets, and Comparative Examples 1-5, basic weight, thickness, density, disaggregation pulp freeness, tensile strength, Beck smoothness, regular reflection smoothness, and a static friction coefficient were measured. Table 2 shows the results and the results of evaluating the use resistance and workability of the slip sheets using these slip sheet base papers. Each value was measured and evaluated by the following method.

(Basis weight)
It measured based on JIS-P-8124 (2005).

(Thickness)
It measured based on JIS-P-8118 (1998).

(density)
It measured based on JIS-P-8118 (1998).
(Dissolved pulp freeness)
The pulp obtained by disaggregating the sample according to JIS-P-8220-1 (2012) was measured according to JIS-P-8121 (1995).

(Tensile strength)
It measured based on JIS-P-8113 (2009).

(Beck smoothness)
It measured based on JIS-P-8119 (1998).

(Specular reflection smoothness)
Using a microtopograph manufactured by Toyo Seiki Seisakusho, pressure was applied to one surface of the prism at a pressure of 24.4 kg / cm ² , and the Rp value was measured using light having a wavelength of 0.5 μm.

(Static friction coefficient)
In accordance with JIS-P-8147 (2010), the static friction coefficient in the vertical direction between the back surfaces of the slip sheet base paper was measured.

(Use resistance)
On a slip sheet using the base paper for each slip sheet, a paper roll of a mass of 100 kg (long paper wound around a paper tube) is placed with its mirror face down, and the asphalt road surface with a forklift with a roll clamp After the top was transported by 20 m at a linear distance, the slip sheet after use was visually observed and evaluated by the following judgment index.
A: There was no tearing, and almost no twisting or paper dust was generated.
○: There was no tearing, and a slight amount of twisting and paper dust was observed.
(Triangle | delta): Although there was no tear and generation | occurrence | production of the twist and paper dust was seen, it did not interfere with continuous use.
X: Breaking, twisting or generation of paper dust occurred, and continuous use was difficult.

(Workability)
On a slip sheet using the base paper for each slip sheet, a paper roll of a mass of 100 kg (long paper wound around a paper tube) is placed with its mirror face down, and the asphalt road surface with a forklift with a roll clamp The upper part was conveyed 20m at a linear distance, and the state in use was evaluated by the following judgment index.
A: There was no particular problem.
◯: There is no problem in use, but slight conveyance noise and deformation occurred.
Δ: Curling and meandering occurred during conveyance while remaining within the range of use.
X: Clamp mounting was not easy or excessive wrinkles and meandering occurred during transportation.

  As described above, the slip sheet using the slip sheet base paper of Embodiments 1 to 11 had sufficient use resistance and workability, unlike the slip sheet using Comparative Examples 1 to 5. That is, Embodiments 1 to 11 of the slip sheet base paper have sufficient strength for slip sheet applications. Moreover, since the said Embodiments 1-11 do not have a resin layer, it is not necessary to perform a test, the problem of blocking does not generate | occur | produce, and the reproduction | regeneration of a pulp is easy.

  The base paper for slip sheets of this invention can be used suitably in order to form a slip sheet.

1 Surface layer 2 Middle layer 3 Back layer

Claims (3)

A slip sheet base paper formed by combining a surface layer, one or more middle layers and a back layer,
The basis weight is 500 g / m ² or more and 900 g / m ² or less,
The density is 0.65 g / cm ³ or more,
The tensile strength in the longitudinal direction is 40 kN / m or more,
The surface layer, middle layer and back layer contain 80% by mass or more of softwood kraft pulp,
A slip sheet base paper, wherein the freeness of the disaggregated pulp obtained by disaggregation is 400 cc or more and 600 cc or less.   The slip sheet base paper according to claim 1, wherein the softwood kraft pulp is unbleached pulp having a copper number of 20 or more and 70 or less.   The aspect ratio of the longitudinal wave propagation speed of the longitudinal ultrasonic pulse to the longitudinal wave propagation speed of the transverse ultrasonic pulse is 1.2 or more and 2.2 or less, and the tensile strength in the longitudinal direction is equal to the tensile strength in the transverse direction. The slip sheet base paper according to claim 1 or 2, wherein a ratio to the thickness is 0.4 or more and 0.6 or less.

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