JP2018171860A - Recording sheet for inkjet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a recording sheet for inkjet which has good dryness of ink, can suppress of blurring of the ink, and has an ink-receiving layer having a strength durable to high-speed super calender treatment and water resistance, and is usable as a re-peelable sheet even in a wetted state.SOLUTION: A recording sheet 1 for inkjet has a water-resistant base material 11, an ink-receiving layer 12 and a pressure-sensitive adhesive layer 13 in this order, where the ink-receiving layer 12 contains first and second aggregation type light calcium carbonates (pigment) having different average secondary particle diameters, a cationic styrenic resin and polyvinyl alcohol (binder) and a cationic resin (ink fixer) other than the cationic styrenic resin, in the ink-receiving layer 12, a ratio of the binder with respect to a content of the pigment is 11-25 mass%, a content of the polyvinyl alcohol is 7 mass% or less with respect to the content of the pigment, and the pressure-sensitive adhesive layer 13 contains an adhesive base agent and a filler.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an ink jet recording sheet.

Information recording systems using ink-jet inks are widely used because full-color high-quality images can be easily obtained, and high-quality images close to those of silver halide photography can be realized by recent technological advances.
As inks, water and water-based inks containing various colorants in a solvent such as water and a mixed solvent of water and a hydrophilic organic solvent, and oil-based inks containing an oil-soluble colorant in a hydrophobic organic solvent Ink is used, and it is used properly according to the purpose.

  An ink jet recording sheet is configured by providing an ink receiving layer for absorbing ink and forming a print or image on a substrate such as paper. The ink receiving layer is required to have good ink drying properties and to suppress ink bleeding, which is particularly important when performing high-speed printing. In consideration of mass production, it is desirable that the ink jet recording sheet can be subjected to a so-called high-speed supercalendering process in which the surface is smoothed while being heated and pressed at a high speed, and the ink receiving layer can withstand such a process. It is desirable that The ink receiving layer can be formed by applying and drying a composition containing components necessary for fixing the ink and a dispersion medium for dispersing them.

  On the other hand, an ink jet recording sheet may be used in an environment wet with water due to expansion of applications. In this case, it is desired that the ink jet recording sheet sufficiently exhibit its function even in the presence of water. For example, an ink jet recording sheet may be used as the removable sheet. As such a releasable sheet, for example, as a sheet-like substrate, an inkjet recording sheet is used, and a pressure-sensitive adhesive layer having removability is provided on the surface thereof. Examples include those in which the sheet to be bonded is removably bonded, those in which the sheet to be bonded is not bonded, and sheets in which the inkjet recording sheet is folded and removably bonded. In such an ink jet recording sheet, for example, when the ink receiving layer overlaps the adhesive surface, the above sheet or the folded ink jet recording sheet is bonded to the pressure-sensitive adhesive layer, and the ink receiving layer is not exposed. It will be in the state sealed by.

  As a typical releasable sheet, a pressure-sensitive pressure-bonded postcard is taken as an example, which may be delivered to a destination during rainy weather. In this case, during delivery or in a postal box after delivery, Water may adhere. Then, when the postcard in such a state is opened, the ink receiving layer may be broken or peeled, or the base material may be broken, and printing or images may not be read. Therefore, it is expected that the occurrence of such a problem can be suppressed in an ink jet recording sheet used as a releasable sheet.

  As an ink jet recording sheet having improved water resistance, an ink receiving layer containing a pigment, an adhesive, a cationic sizing agent, and two or more cationic resins having a degree of cationization and a molecular weight within a specific range ( Receiving layer) (see Patent Document 1), including a pigment and a binder. The binder includes polyvinyl alcohol having a specific saponification degree and polyurethane, and the binder is based on the pigment content. An ink receiving layer having a content in a specific range (see Patent Document 2) is disclosed.

Japanese Patent No. 4042970 JP, 2006-182818, A

However, the ink jet recording sheet disclosed in Patent Document 1 has a high effect of suppressing bleeding due to adhesion of moisture for printing and images, but the water resistance of the ink receiving layer itself is insufficient and is wet with water. There is a problem that the ink receiving layer is easily broken or peeled off when used in an environment.
In addition, the ink jet recording sheet disclosed in Patent Document 2 also has a high effect of suppressing bleeding due to the adhesion of moisture to prints and images, and the ink receiving layer itself has a certain level of water resistance. When the ink receiving layer is dipped in or rubbed with moisture, the ink receiving layer is likely to be broken or peeled off.
Furthermore, none of the inkjet recording sheets disclosed in Patent Document 1 or 2 can sufficiently exhibit the function as a releasable sheet depending on the type of substrate and the type of pressure-sensitive adhesive layer to be formed. There is a possibility.

  The present invention has been made in view of the above circumstances, and has an ink receptivity that has good ink drying properties, can suppress ink bleeding, and has a strength sufficient to withstand high-speed supercalendering, and water resistance. It is another object of the present invention to provide an inkjet recording sheet that includes a layer and can be used as a re-peelable sheet even when wet.

  The present invention provides an ink jet comprising a water-resistant substrate, an ink receiving layer formed on at least one surface of the water-resistant substrate, and a pressure-sensitive adhesive layer formed on the ink receiving layer. The ink receiving layer contains, as a pigment, first and second aggregated light calcium carbonates having different average secondary particle sizes, and the ink receiving layer serves as a binder as a cationic styrene-based material. A resin and polyvinyl alcohol, and the ink receiving layer contains a cationic resin other than the cationic styrenic resin as an ink fixing agent. In the ink receiving layer, the first and second agglomerated light carbonic acid The ratio of the total content of the cationic styrenic resin and polyvinyl alcohol to the total content of calcium is 11 to 25% by mass. The ratio of the polyvinyl alcohol content to the total content of the first and second agglomerated light calcium carbonate is 7% by mass or less, and the pressure-sensitive adhesive layer is a natural rubber type. Contains one or more adhesive bases selected from the group consisting of an adhesive and a synthetic rubber-based adhesive, and a filler, and allows the overlapping surfaces of the objects to be bonded to be removably bonded. An inkjet recording sheet is provided.

  In the inkjet recording sheet of the present invention, the average secondary particle diameter of the first aggregated light calcium carbonate is less than 1 μm, and the average secondary particle diameter of the second aggregated light calcium carbonate is 2 to 5 μm. In the ink receiving layer, the ratio of [content (mass) of first aggregated light calcium carbonate]: [content (mass) of second aggregated light calcium carbonate] is 22:78 to 78:22. Preferably there is.

  According to the present invention, the ink receiving layer has good ink drying properties, can suppress ink bleeding, has a strength sufficient to withstand high-speed supercalendering, and water resistance, and further wets with water. An ink jet recording sheet that can be used as a re-peelable sheet even in a wet state is provided.

It is sectional drawing which shows typically one Embodiment of the recording sheet for inkjets of this invention. It is sectional drawing which shows typically other embodiment of the recording sheet for inkjet of this invention.

<< Inkjet recording sheet >>
The inkjet recording sheet of the present invention includes a water-resistant substrate, an ink receiving layer formed on at least one surface of the water-resistant substrate, and a pressure-sensitive adhesive layer formed on the ink receiving layer. The ink receiving layer contains first and second aggregated light calcium carbonates having different average secondary particle diameters as pigments, and the ink receiving layer as a binder A cationic styrene resin and polyvinyl alcohol, and the ink receiving layer contains a cationic resin other than the cationic styrene resin as an ink fixing agent. The ratio of the total content of the cationic styrenic resin and polyvinyl alcohol to the total content of 2 aggregated light calcium carbonates is 1 In the ink receiving layer, the ratio of the polyvinyl alcohol content to the total content of the first and second aggregated light calcium carbonates is 7% by mass or less, and the pressure sensitive The adhesive layer contains one or more adhesive bases selected from the group consisting of natural rubber-based adhesives and synthetic rubber-based adhesives, and a filler, and the overlapping surfaces of the objects to be bonded Can be removably bonded.

The ink jet recording sheet of the present invention has an ink receiving layer having a limited composition as described above, so that the ink drying property is good and ink bleeding can be suppressed. Further, the ink receiving layer has a high-speed super calender. With sufficient strength and water resistance to withstand processing, printing and images can be stably held.
That is, the inkjet recording sheet of the present invention may be subjected to a calendar process (smoothing process).

The calendar process is a process of smoothing the surface of the sheet by pressurizing it, and the surface of the sheet may be heated at the same time. The high-speed super calendar process is a process that performs this calendar process (smoothing process) at high speed.
The processing speed during the high-speed super calendar process is, for example, 300 m / min or more.
The ink jet recording sheet of the present invention is particularly suitable for mass production because the ink receiving layer can withstand high-speed supercalendering.

The inkjet recording sheet of the present invention further includes a pressure-sensitive adhesive layer and functions as a re-peelable sheet.
In the ink jet recording sheet of the present invention, ink jet printing is usually performed on the surface of the ink receiving layer opposite to the water-resistant substrate side, and a printing layer is formed in the region on the surface side of the ink receiving layer. Thereafter, a pressure-sensitive adhesive layer is formed on the ink receiving layer. That is, the inkjet recording sheet of the present invention corresponds to a so-called post-glue type removable sheet. Therefore, this ink jet recording sheet is usually provided with a printing layer in the region on the surface side of the ink receiving layer. However, the inkjet recording sheet of the present invention may not include the printing layer.

<Ink receiving layer>
The ink receiving layer can be formed using an ink receiving layer composition containing a component for constituting the ink receiving layer. More specifically, the ink receiving layer can be formed by applying the ink receiving layer composition onto a water-resistant substrate and drying it.

  The ratio of the content of components that do not vaporize at room temperature in the ink receiving layer composition is usually the same as the content ratio of the components of the ink receiving layer. In the present specification, “normal temperature” means a temperature that is not particularly cooled or heated, that is, a normal temperature, and includes a temperature of 15 to 25 ° C., for example.

Application of the ink-receiving layer composition on the water-resistant substrate may be performed once or may be performed in multiple steps. In the case where the coating is performed in a plurality of times, the ink receiving layer composition is further coated on the dried coating layer, and the ink receiving layer is further coated on the non-dried coating layer. Any of the methods for applying the layer composition may be used.
The coating amount of the ink receiving layer composition may be appropriately adjusted in consideration of the solid content concentration of the ink receiving layer composition, the thickness of the ink receiving layer, and the like.

  The method for applying the ink receiving layer composition is not particularly limited, and any method can be used as long as it can apply a liquid material. Specific coating methods include, for example, various types of coaters such as air knife coaters, curtain coaters, die coaters, blade coaters, roll coaters, gate roll coaters, bar coaters, rod coaters, gravure coaters, gravure offset coaters; wire bars A known method using an apparatus such as a coater may be mentioned.

  The coated ink receiving layer composition may be dried by a known method such as air drying or heating air drying. Conditions such as drying temperature and drying time may be appropriately set according to the drying method.

The amount of the ink receiving layer formed on the water-resistant substrate is preferably 4 g / m ² or more, more preferably 4.5 g / m ² or more, and particularly preferably 5 g / m ² or more. preferable. When the amount of the ink receiving layer formed is equal to or more than the lower limit value, for example, the effect of suppressing ink bleeding becomes higher. In particular, at least the surface of the ink receiving layer is calendered (smoothed) using a calendar device. When the processing is performed, such an effect becomes higher.
On the other hand, the upper limit of the formation amount of the ink receiving layer on the substrate is not particularly limited, and may be, for example, 30 g / m ² .
The formation amount of the ink receiving layer is preferably in a range set by appropriately combining any one of the above lower limit value and upper limit value.

  The formation amount of the ink receiving layer is, for example, by adjusting the coating amount of the ink receiving layer composition on the water-resistant substrate or the blending amount of each component of the ink receiving layer composition, Can be adjusted.

The ink jet recording sheet of the present invention may be provided with an ink receiving layer on at least one surface of a water-resistant substrate, may be provided only on one side, or may be provided on both sides.
When the ink jet recording sheet of the present invention is provided with ink receiving layers on both sides of a water-resistant substrate, these two ink receiving layers may be the same or different from each other.

<Ink-receiving layer composition>
Examples of the ink receiving layer composition include those containing the pigment, binder, ink fixing agent, and, if necessary, other components not corresponding to any of these.
Hereinafter, each component will be described.

[Pigment]
The pigment is a component that retains the pigment in the ink and affects the absorption and transmission of moisture in the ink receiving layer.
The ink receiving layer composition and the ink receiving layer contain, as the pigment, first aggregated light calcium carbonate and second aggregated light calcium carbonate having different average secondary particle diameters.

Calcium carbonate includes heavy calcium carbonate and light calcium carbonate.
Heavy calcium carbonate is obtained by pulverizing and classifying natural limestone.
Light calcium carbonate is chemically synthesized, and the shape and size of the particles can be chemically controlled. The shape of the light calcium carbonate particles is usually cubic, spindle or columnar. There are light calcium carbonates in which primary particles are present as simple particles and those in which primary particles are aggregated to form secondary particles.
Light calcium carbonate in which primary particles aggregate to form secondary particles is referred to as aggregated light calcium carbonate. The average particle diameter of the primary particles (average primary particle diameter) is obtained from the observation result with a scanning electron microscope, for example. The average particle diameter of the secondary particles can be obtained by measurement with a laser diffraction method, for example.
In the present invention, the first agglomerated light calcium carbonate and the second agglomerated light calcium carbonate having different average secondary particle diameters are used as the pigment.

The average secondary particle diameter of the first agglomerated light calcium carbonate is preferably less than 1 μm, more preferably 0.9 μm or less, for example, 0.8 μm or less, 0.7 μm or less, and 0.6 μm or less. Although these may be any of these, these are examples.
On the other hand, the lower limit value of the average secondary particle diameter of the first aggregated light calcium carbonate is not particularly limited, and may be 0.2 μm, for example.
When the ink receiving layer contains the first aggregated light calcium carbonate, the effect of suppressing ink bleeding when ink jet printing is performed on the ink jet recording sheet is further enhanced.

The average secondary particle diameter of the second agglomerated light calcium carbonate is preferably 2 to 5 μm, more preferably 2.3 to 4.7 μm, for example 2.6 to 4.4 μm. This is just an example.
When the ink receiving layer contains the second agglomerated light calcium carbonate, the drying property of the ink becomes higher when ink jet printing is performed on the ink jet recording sheet. Here, “the ink has a high drying property” means “the time required for drying the ink is short”.

The ink receiving layer preferably contains any one of the above-mentioned average secondary particle diameters as the first aggregated light calcium carbonate and the second aggregated light calcium carbonate in appropriate combination. For example, as a preferable combination of the first aggregated light calcium carbonate and the second aggregated light calcium carbonate in the ink receiving layer, the first secondary particle diameter is less than 1 μm (for example, 0.2 μm or more and less than 1 μm). A combination of the agglomerated light calcium carbonate and the second agglomerated light calcium carbonate having an average secondary particle diameter of 2 to 5 μm is mentioned, but this is an example.
As described above, since the ink receiving layer contains both the first aggregated light calcium carbonate and the second aggregated light calcium carbonate, the ink jet recording sheet can be used even when color printing is performed by a high speed ink jet printer. The drying property of the is improved.

  In the ink receiving layer composition and the ink receiving layer, the ratio of [content of first aggregated light calcium carbonate (mass)]: [content of second aggregated light calcium carbonate (mass)] is not particularly limited. Is preferably 10:90 to 90:10, more preferably 16:84 to 84:16, and particularly preferably 22:78 to 78:22. The content of the first agglomerated light calcium carbonate is preferably large in that the effect of suppressing ink bleeding is higher, and the content of the second agglomerated light calcium carbonate is preferred in that the drying property of the ink is higher. It is preferable that there are many. In addition, the ratio of [content (mass) of first agglomerated light calcium carbonate]: [content (mass) of second agglomerated light calcium carbonate] is in the above-described range, whereby the recording sheet for ink jet recording In addition, both the improvement of the ink bleeding suppression effect and the improvement of the drying property can be achieved in a well-balanced manner, and the ink jet recording sheet has a better ink drying property even when color printing is performed with a high-speed ink jet printer. It becomes good.

The composition for an ink receiving layer and the ink receiving layer do not fall under any of the first aggregated light calcium carbonate and the second aggregated light calcium carbonate, as long as the effects of the present invention are not impaired. A pigment may be contained.
Examples of the other pigment include, for example, non-aggregated light calcium carbonate (that is, light calcium carbonate in which primary particles are not aggregated to form secondary particles); Calcium carbonate other than the aggregated light calcium carbonate 2 is mentioned.

  Each of the first and second aggregated light calcium carbonates and the other pigments may be used alone, in combination of two or more, or in combination of two or more. The combination and ratio may be appropriately selected according to the purpose.

  In the ink receiving layer composition and the ink receiving layer, the ratio of the total content of the first and second aggregated light calcium carbonates to the total pigment content is preferably 92% by mass or more, and 94% by mass. More preferably, it is more preferably 96% by mass or more, particularly preferably 98% by mass or more, and may be 100% by mass.

In the ink receiving layer composition, the ratio of the pigment content to the total content of components other than the solvent described later (that is, the pigment content in the ink receiving layer) is preferably 70 to 95% by mass, More preferably, it is 74-92 mass%, and it is especially preferable that it is 78-89 mass%. When the ratio is equal to or higher than the lower limit value, the effect of using the pigment is more remarkably obtained. Further, when the ratio is equal to or less than the upper limit value, the strength of the ink receiving layer becomes higher.
In the present specification, the “pigment content” refers to all pigments used, including not only the first and second aggregated light calcium carbonates but also other pigments, unless otherwise specified. The content (that is, the total content of pigments) is meant.

[binder]
The binder is a component for holding the pigment (first and second aggregated light calcium carbonate and the like) contained in the ink receiving layer.
The ink receiving layer composition and the ink receiving layer contain a cationic styrene resin and polyvinyl alcohol as the binder.
The cationic styrenic resin is a component that largely affects the water resistance of the ink receiving layer, and also affects the drying and bleeding of the ink in the ink receiving layer.
Polyvinyl alcohol is a component mainly affecting the strength of the ink receiving layer.

Cationic styrenic resins have structural units derived from styrene and exhibit cationic properties when dissolved or dispersed in water.
The cationic styrenic resin is not particularly limited as long as it is such, and may have, for example, only a structural unit derived from styrene or a derivative thereof, or a structure derived from styrene or a derivative thereof. You may have a unit and structural units other than these.
Further, the cationic styrene resin may be a copolymer of a resin having a structural unit derived from styrene or a derivative thereof and another resin other than this, and as such a copolymer, Examples thereof include a copolymer of a resin having a structural unit derived from styrene or a derivative thereof and an acrylic resin (a resin having a (meth) acryloyl group).

In the present specification, the term “derivative” or “class” means that one or more hydrogen atoms of the original compound are substituted with a group other than a hydrogen atom unless otherwise specified. Here, the “group” includes not only an atomic group formed by bonding a plurality of atoms but also one atom.
Further, the “(meth) acryloyl group” is a concept including both “acryloyl group” and “methacryloyl group”. The same applies to terms similar to the (meth) acryloyl group. For example, “(meth) acrylic acid” is a concept including both “acrylic acid” and “methacrylic acid”, and “(meth) acrylate” "Is a concept including both" acrylate "and" methacrylate ".

The weight average molecular weight of the cationic styrenic resin is preferably 5,000 to 110,000.
In the present specification, the weight average molecular weight is a polystyrene conversion value measured by a gel permeation chromatography (GPC) method unless otherwise specified.

  Examples of the polyvinyl alcohol include fully saponified polyvinyl alcohol and partially saponified polyvinyl alcohol.

The saponification degree of polyvinyl alcohol is preferably 90 mol% or more, more preferably 93 mol% or more, and particularly preferably 96 mol% or more. When the degree of saponification of polyvinyl alcohol is not less than the lower limit, the effect of suppressing ink bleeding in the ink receiving layer becomes higher, and the strength of the ink receiving layer becomes higher. The upper limit of the saponification degree of polyvinyl alcohol is not particularly limited, and may be, for example, 99.5 mol% or 100 mol%.
The saponification degree of polyvinyl alcohol is preferably in a range set by appropriately combining any one of the above lower limit value and upper limit value.

  The polymerization degree of polyvinyl alcohol is preferably 500 to 2500, more preferably 750 to 2350, further preferably 1000 to 2200, and particularly preferably 1250 to 2000. When the degree of polymerization of polyvinyl alcohol is not more than the above upper limit value, the drying property of the ink becomes higher. Moreover, the intensity | strength of an ink receiving layer becomes higher because the polymerization degree of polyvinyl alcohol is more than the said lower limit.

The composition for ink-receiving layer and the ink-receiving layer may contain other binders other than the cationic styrenic resin and polyvinyl alcohol as long as the effects of the present invention are not impaired.
Examples of the other binder include water-soluble polymers other than cationic styrene resins and polyvinyl alcohol.

Examples of the water-soluble polymer include modified polyvinyl alcohols such as cation-modified polyvinyl alcohol, anion-modified polyvinyl alcohol, and silanol-modified polyvinyl alcohol; oxidized starch; phosphate esterified starch; low cons; casein; carboxymethylcellulose (CMC); And polyurethanes such as polyurethane and carbonate polyurethane.
The polyurethane may be, for example, cationic, anionic or nonionic.

  The cationic styrenic resin, polyvinyl alcohol, and the other binder may be used singly or in combination of two or more, when two or more are used together. What is necessary is just to select a combination and a ratio suitably according to the objective.

  In the ink receiving layer composition and the ink receiving layer, the ratio of the total content of the cationic styrenic resin and polyvinyl alcohol to the total binder content is preferably 65% by mass or more, and 75% by mass or more. It is more preferable, and it is especially preferable that it is 85 mass% or more, for example, either 90 mass% or more and 95 mass% or more may be sufficient, and 100 mass% may be sufficient.

  In the ink receiving layer composition and the ink receiving layer, the ratio of the total content of the cationic styrene resin and polyvinyl alcohol to the total content of the first and second aggregated light calcium carbonates is 11 to 25 masses. %, Preferably 12.5 to 23% by mass, more preferably 14 to 21% by mass. When the ratio is equal to or higher than the lower limit value, the water resistance of the ink receiving layer becomes higher, and when the ratio is equal to or lower than the upper limit value, the drying property of the ink in the ink receiving layer becomes higher.

  In the composition for an ink receiving layer and the ink receiving layer, the ratio of the content of the polyvinyl alcohol to the total content of the first and second aggregated light calcium carbonates is 7% by mass or less, 0.5 to It is preferably 7% by mass, more preferably 0.5 to 6.5% by mass, further preferably 0.5 to 6% by mass, and 0.5 to 5.5% by mass. It is particularly preferred. When the ratio is equal to or less than the upper limit value, the water resistance of the ink receiving layer is increased, and when the ratio is equal to or greater than the lower limit value, the strength of the ink receiving layer is further increased. In particular, since the strength of the ink receiving layer is high, the ink jet recording sheet is suitable for performing a high-speed super calendar process.

  In the ink receiving layer composition and the ink receiving layer, the ratio of the content of the cationic styrenic resin to the total content of the first and second aggregated light calcium carbonates is 4 to 24.5% by mass. It is preferably 6 to 22.5% by mass, and more preferably 8 to 20.5% by mass.

[Ink fixing agent]
The ink fixing agent is a component for fixing ink in the ink receiving layer.
The ink-receiving layer composition and the ink-receiving layer contain a cationic resin other than the cationic styrenic resin (in this specification, sometimes referred to as “cationic resin fixing agent”) as the ink fixing agent. contains.

The cationic resin fixing agent exhibits a cationic property when dissolved or dispersed in water.
The cationic resin fixing agent is preferably a monomer, oligomer or polymer of a primary amine, secondary amine, tertiary amine or quaternary ammonium salt, for example, the oligomer or polymer. More preferred.

More preferable examples of the cationic resin fixing agent include, for example, an alkylamine-epichlorohydrin copolymer; an acrylic polymer having a secondary amino group, a tertiary amino group, or a quaternary ammonium group; polyvinylamine; polyvinylamidine. Dicyandiamide-formalin copolymer and other dicyan cationic resins; dicyandiamide-polyethyleneamine copolymer and other polyamine cationic resins; polyalkylenepolyamines such as polyethylene polyamine and polypropylene polyamine and derivatives thereof; ; diallyldimethylammonium -SO ₂ copolymer; diallylamine salt -SO ₂ copolymer; dimethyldiallylammonium chloride polymer; polymer of allylamine salt; single vinylbenzyl triallyl ammonium salt Polymer or copolymer; Dialkylaminoethyl (meth) acrylate quaternary salt copolymer; Acrylamide-diallylamine salt copolymer; Aluminum salt such as polyaluminum chloride and polyaluminum acetate, and alkylamine-epichlorohydrin copolymer Particularly preferred is a dimethylamine-epichlorohydrin copolymer.

  In the present specification, the polymer includes a polycondensate.

  The cationic resin fixing agent may be used alone or in combination of two or more, and when two or more are used in combination, the combination and ratio thereof may be appropriately selected according to the purpose. That's fine.

  In the ink receiving layer composition and the ink receiving layer, the ratio of the content of the cationic resin fixing agent to the content of the pigment is preferably 1 to 40% by mass, and preferably 1 to 25% by mass. More preferably, for example, it may be any one of 1 to 15% by mass, 1 to 10% by mass, 1 to 6% by mass, and 1 to 4% by mass, but these are examples.

[Other ingredients]
Examples of the other components in the ink receiving layer composition include, for example, a solvent, a polyvalent metal salt, a pH adjuster, an antifoaming agent, an antifoaming agent, a release agent, a foaming agent, an antioxidant, a preservative, and water resistance. Ingredients usually used in the ink receiving layer of an ink jet recording sheet, such as an agent, a paper strength enhancer, a coloring dye, a coloring pigment, a dye fixing agent, a pigment dispersant, a fluorescent whitening agent, and an ultraviolet absorber.
As the other components, one kind may be used alone, two or more kinds may be used in combination, and when two or more kinds are used in combination, the combination and ratio thereof may be appropriately selected according to the purpose. Good.

(solvent)
In the composition for an ink receiving layer, the other components other than the pigment, the binder, the ink fixing agent, or the solvent are blended as a dispersion or a solution. When not used, the solvent means the dispersion medium used for preparing the dispersion or the solvent used for preparing the solution.
In addition to the dispersion medium used for the preparation of the dispersion or the solvent used for the preparation of the solution, when a solvent is separately added, the solvent is the dispersion medium or the solvent, and this is separately added. By both solvents. And when the said other components other than the said pigment, a binder, an ink fixing agent, and a solvent are mix | blended as a solid substance, the said solvent means the solvent mix | blended separately from these.
Examples of the solvent include water, alcohol and the like.

  A solvent may be used individually by 1 type, may use 2 or more types together, and when using 2 or more types together, those combinations and ratios may be suitably selected according to the objective.

  The content of the solvent in the composition for ink receiving layer may be appropriately selected according to the purpose and is not particularly limited, but is preferably 35 to 90% by mass, for example.

(Polyvalent metal salt)
The polyvalent metal salt is a component for improving the drying property of the ink in the ink receiving layer, and is not particularly limited as long as it contains a metal cation having a valence of 2 or more.

Examples of the polyvalent metal salt include calcium chloride (CaCl ₂ ), magnesium chloride (MgCl ₂ ), aluminum chloride (AlCl ₃ ), barium chloride (BaCl ₂ ), zinc chloride (ZnCl ₂ ), calcium sulfate (CaSO ₄ ). , Magnesium sulfate (MgSO ₄ ), calcium nitrate (Ca (NO ₃ ) ₂ ), magnesium acetate ((CH ₃ COO) ₂ Mg), calcium acetate ((CH ₃ COO) ₂ Ca), potassium aluminum sulfate (potash alum, AlK (SO ₄ ) ₂ ) and the like.
The polyvalent metal salt may be hydrated or non-hydrated.

  Among them, the polyvalent metal salt can improve the ink-jet printing suitability such as the ink drying property and color density in the ink receiving layer, and the water resistance and scratch resistance of the ink receiving layer in a balanced manner, and also has high safety. In this respect, calcium chloride, magnesium chloride, or potassium aluminum sulfate is preferable, and potassium aluminum sulfate is particularly preferable in terms of higher ink drying properties.

  As the polyvalent metal salt, one kind may be used alone, two or more kinds may be used in combination, and when two or more kinds are used in combination, their combination and ratio may be appropriately selected according to the purpose. Good.

  When the ink receiving layer composition and the ink receiving layer contain a polyvalent metal salt, the ink receiving layer preferably contains at least one selected from the group consisting of calcium chloride, magnesium chloride and aluminum potassium sulfate. More preferably, one containing either or both of calcium chloride and magnesium chloride is more preferred. When the ink receiving layer contains at least aluminum potassium sulfate, the drying property of the ink becomes higher.

  When the ink receiving layer composition and the ink receiving layer contain a polyvalent metal salt, the ratio of the content of the polyvalent metal salt to the pigment content in the ink receiving layer composition and the ink receiving layer is as follows: It is preferably 3 to 55% by mass, more preferably 3 to 25% by mass, further preferably 3 to 15% by mass, and particularly preferably 3 to 10% by mass. When the ratio is equal to or higher than the lower limit value, the effect of using the polyvalent metal salt is more remarkably obtained. Moreover, the excessive use of a polyvalent metal salt is suppressed because the said ratio is below the said upper limit.

(Defoamer)
The antifoaming agent is not particularly limited and may be a known one.
An antifoamer may be used individually by 1 type, may use 2 or more types together, and when using 2 or more types together, what is necessary is just to select those combinations and ratios suitably according to the objective. .

  What is necessary is just to adjust suitably the total content of the said other component in the composition for ink receiving layers according to the objective.

  Examples of particularly preferable ink receiving layer compositions and ink receiving layers include a first agglomerated light calcium carbonate having an average secondary particle diameter of less than 1 μm and a second secondary particle diameter of 2 to 5 μm. The ratio of [the content (mass) of the first aggregated light calcium carbonate]: [the content (mass) of the second aggregated light calcium carbonate] is 22:78 to 78:22.

<Method for producing composition for ink receiving layer>
The composition for an ink receiving layer can be produced by blending the pigment, binder, ink fixing agent, and other components as required, and sufficiently stirring these blended components. In the ink receiving layer composition, the pigment is preferably dispersed, and the binder and the ink fixing agent are preferably dissolved or dispersed.

The blending order of each component is not particularly limited.
In addition, when blending each component, all of the components may be added and then mixed, or some components may be mixed while being sequentially added, and all components may be mixed while being sequentially added. May be.
As described above, the solvent may be used in combination with a pigment, a binder, an ink fixing agent, or other components other than the solvent in advance, or may be used alone without being previously mixed with these components. May be used.

The temperature at the time of blending each component is not particularly limited, and may be adjusted as appropriate according to the type of the blend component, but it is usually preferably 15 to 30 ° C.
Stirring may be performed by a known method for preparing a dispersion, such as a method using a mixer. What is necessary is just to adjust stirring time suitably according to the total amount of the composition for ink receiving layers to manufacture, a stirring method, etc., for example, it is preferable that it is 10 minutes-24 hours.

<Water resistant substrate>
The material of the water-resistant substrate (sometimes simply referred to as “substrate” in the present specification) is not particularly limited as long as it has water resistance, and is selected according to the purpose from those capable of forming a coating layer. do it.
Examples of the water-resistant base material include a base material having a residual rate of either 10% or more in the longitudinal direction and the lateral direction in a wet tensile strength test based on JIS P8135: 1998.

  Specific examples of the material for the water-resistant substrate include paper such as water-resistant paper; polyethylene, polypropylene, polyvinyl chloride, polystyrene, polyvinyl acetate, acrylic resin, AS resin, ABS resin, polyamide, polyacetal, polyethylene Examples include terephthalate, polybutylene terephthalate, polytrimethylene terephthalate, polyethylene naphthalate, polybutylene naphthalate, polyphenylene sulfide, polysulfone, polycarbonate, epoxy resin, melamine resin, phenol resin, urea resin, polyurethane, polyimide, etc. It is done.

  The thickness of the water-resistant substrate is not particularly limited as long as the shape of the water-resistant substrate is a sheet or film, but is preferably 20 to 1000 μm, more preferably 35 to 500 μm, and 50 It is especially preferable that it is -200 micrometers. When the thickness of the water-resistant substrate is not less than the lower limit, the structure of the ink receiving layer can be more stably maintained, and when the thickness of the water-resistant substrate is not more than the upper limit, a recording sheet can be used. Is easier to handle.

The water-resistant substrate may be composed of a single layer, or may be composed of two or more layers, and when composed of a plurality of layers, these layers may be the same as or different from each other. That is, all the layers may be the same, all the layers may be different, or only some of the layers may be different. And when several layers differ from each other, the combination of these several layers is not specifically limited. Here, the plurality of layers being different from each other means that at least one of the material and the thickness of each layer is different from each other.
In addition, when a water-resistant base material consists of multiple layers, it is good to make it the total thickness of each layer be the thickness of said preferable base material.

  As the water resistant substrate, a commercially available product may be used, or a product produced by a known method may be used.

<Pressure sensitive adhesive layer>
As described above, the pressure-sensitive adhesive layer is capable of removably bonding the overlapping surfaces of the objects to be bonded. More specifically, the pressure-sensitive adhesive layer is formed by bonding the overlapping surfaces of the objects to be bonded together, and then peeling them off without damaging the overlapping surfaces of the objects to be bonded. It is possible to make it peeled again.
The pressure sensitive adhesive layer may be known in the art.

  Examples of the object to be bonded to the ink jet recording sheet of the present invention include an ink jet recording sheet or other sheets.

  When the object to be bonded to the ink jet recording sheet of the present invention is an ink jet recording sheet, an ink jet recording sheet may be separately prepared and bonded (that is, two ink jet recording sheets). A sheet may be adhered), or only one ink jet recording sheet of the present invention may be used, and this may be folded and adhered.

The ink jet recording sheet that is separately adhered to the ink jet recording sheet of the present invention may be the ink jet recording sheet of the present invention, or may be an ink jet recording sheet not corresponding to the present invention.
In addition, the inkjet recording sheet that is separately bonded to the pressure-sensitive adhesive layer of the inkjet recording sheet of the present invention may include a pressure-sensitive adhesive layer. The pressure-sensitive adhesive layer of the inkjet recording sheet of the invention may be bonded, or a part other than the pressure-sensitive adhesive layer may be bonded to the pressure-sensitive adhesive layer of the inkjet recording sheet of the invention.

  The inkjet recording sheet of the present invention may be in a state where the adhesion target is bonded to the pressure-sensitive adhesive layer, or the adhesion target may not be bonded, and one inkjet recording sheet May be folded and bonded by a pressure-sensitive adhesive layer.

  The pressure-sensitive adhesive layer can be formed using a pressure-sensitive adhesive composition containing components for constituting the pressure-sensitive adhesive layer. More specifically, the pressure-sensitive adhesive layer can be formed by applying the pressure-sensitive adhesive composition onto the ink receiving layer and drying it. The pressure sensitive adhesive layer may be formed not only on the ink receiving layer but also on the water resistant substrate.

  In the pressure-sensitive adhesive composition, the content ratio of components that do not vaporize at room temperature is usually the same as the content ratio of the components of the pressure-sensitive adhesive layer.

The pressure-sensitive adhesive composition may be applied once or may be divided into a plurality of times. When coating is performed in multiple steps, a pressure-sensitive adhesive composition is further applied onto the dried coating layer, and pressure is further applied onto the non-dried coating layer. Any method of coating the adhesive composition may be used.
The coating amount of the pressure sensitive adhesive composition may be appropriately adjusted in consideration of the solid content concentration of the pressure sensitive adhesive composition, the thickness of the pressure sensitive adhesive layer, and the like.

The method for applying the pressure-sensitive adhesive composition is the same as the method for applying the ink receiving layer composition described above.
The drying method for the coated pressure-sensitive adhesive composition is the same as the drying method for the ink receiving layer composition described above. However, the pressure-sensitive adhesive composition is preferably heat-dried, and the drying temperature may be appropriately adjusted according to the components contained in the pressure-sensitive adhesive composition, but is usually 50 to 150 ° C. Is preferred.

In the inkjet recording sheet, the amount of the formed pressure-sensitive adhesive layer is not particularly limited, is preferably from 1 to 20 g / ^{m 2,} more preferably 1 to 15 g / ^{m 2,} 2 to 10 g / M ² is particularly preferred. By forming the pressure-sensitive adhesive layer in an amount equal to or higher than the lower limit, the object to be bonded can be more stably bonded. In the case where the pressure-sensitive adhesive layer is formed in an amount equal to or lower than the upper limit, The excessive formation of the agent layer is suppressed.

  The formation amount of the pressure-sensitive adhesive layer can be adjusted, for example, by adjusting the coating amount of the pressure-sensitive adhesive composition or the blending amount of each compounding component of the pressure-sensitive adhesive composition.

<Pressure-sensitive adhesive composition>
Examples of the pressure-sensitive adhesive composition include those containing the adhesive base, a filler, and, if necessary, other components not corresponding to any of these.
Hereinafter, each component will be described.

[Adhesive base]
The said adhesive base is a component which expresses adhesive force, and provides adhesive force to a pressure sensitive adhesive layer.
The pressure-sensitive adhesive composition and the pressure-sensitive adhesive layer contain one or more selected from the group consisting of natural rubber-based adhesives and synthetic rubber-based adhesives as the adhesive base.

  Examples of the natural rubber-based adhesive and the synthetic rubber-based adhesive include adhesive resins known in the art. For example, examples of the synthetic rubber-based adhesive include styrene butadiene rubber; acrylic copolymers such as (meth) acrylic acid ester copolymers.

  Natural rubber adhesives and synthetic rubber adhesives may be used singly or in combination of two or more, when two or more are used in combination, And may be appropriately selected according to the purpose.

  Ratio of the total content of the natural rubber-based adhesive and the synthetic rubber-based adhesive to the total content of components other than the solvent described later in the pressure-sensitive adhesive composition (that is, the natural rubber-based pressure-sensitive adhesive layer) The total content of the adhesive and the synthetic rubber adhesive is not particularly limited, and may be, for example, 50 to 95% by mass, but this is an example.

[Filler]
The filler is a component for reducing the adhesive force of the adhesive, and functions as an adhesive force regulator in the pressure-sensitive adhesive layer.
The pressure-sensitive adhesive layer has removability by containing such an adhesive base and a filler.

The filler may be either an organic filler or an inorganic filler.
In particular, the filler is not melted as a solid, even in the environment of the heating temperature when heating the pressure-sensitive adhesive composition, such as the drying temperature when drying the pressure-sensitive adhesive composition. What can exist is preferable, for example, it is preferable that melting | fusing point of a filler is 45 degreeC or more.

Preferred examples of the organic filler include starch (starch) and the like.
Preferred examples of the inorganic filler include silica, alumina, glass, zinc oxide, titanium oxide, calcium carbonate, kaolin, activated clay, and shirasu balloon.
The silica may be amorphous silica, and examples of the amorphous silica include synthetic amorphous silica such as dry silica and wet silica.

The filler is preferably in the form of particles (fine particles).
Although the average particle diameter of the said filler is not specifically limited unless the effect of this invention is impaired, For example, 1-35 micrometers may be sufficient.
In the present specification, the “average particle diameter” means the median value D ₅₀ of the volume cumulative distribution measured by a laser diffraction method unless otherwise specified.

  The filler may be used alone or in combination of two or more, and when two or more are used in combination, the combination and ratio thereof may be appropriately selected according to the purpose. .

  The ratio of the content of the filler to the total content of components other than the solvent described later in the pressure-sensitive adhesive composition (that is, the content of the filler in the pressure-sensitive adhesive layer) is not particularly limited, For example, it may be 5 to 50% by mass, but this is an example.

[Other ingredients]
As said other component in a pressure sensitive adhesive composition, a solvent etc. are mentioned, for example.
Examples of the solvent in the pressure-sensitive adhesive composition include the same solvents as those in the ink-receiving layer composition.

  As the other components, one kind may be used alone, two or more kinds may be used in combination, and when two or more kinds are used in combination, the combination and ratio thereof may be appropriately selected according to the purpose. Good.

What is necessary is just to adjust suitably the total content of the said other component in a pressure sensitive adhesive composition according to the objective.
However, the ratio of the total content of the other components other than the solvent to the total content of the components other than the solvent in the pressure-sensitive adhesive composition (that is, the other components other than the solvent in the pressure-sensitive adhesive layer) Is preferably 20% by mass or less, more preferably 10% by mass or less, further preferably 5% by mass or less, for example, 3% by mass or less and 1% by mass or less. Any of these may be sufficient, and 0 mass% may be sufficient.
In other words, the ratio of the total content of the adhesive base and the filler to the total content of components other than the solvent in the pressure-sensitive adhesive composition (that is, the adhesive base of the pressure-sensitive adhesive layer) And the total content of the filler) is preferably 80% by mass or more, more preferably 90% by mass or more, further preferably 95% by mass or more, such as 97% by mass or more and 99%. Any of the mass% or more may be sufficient, and 100 mass% may be sufficient.

<Method for producing pressure-sensitive adhesive composition>
The pressure-sensitive adhesive composition can be produced by blending the adhesive base, the filler, and other components as required, and sufficiently stirring these blended components.
The pressure-sensitive adhesive composition can be produced by the same method as the ink-receiving layer composition described above except that the blending components are different.

<< Method for producing inkjet recording sheet >>
The ink jet recording sheet of the present invention can be produced by forming an ink receiving layer on at least one surface of a water-resistant substrate and forming the pressure sensitive adhesive layer on the ink receiving layer.
The method for forming the ink receiving layer and the pressure-sensitive adhesive layer is as described above.
When the ink jet recording sheet of the present invention has a printing layer in a region on the surface side opposite to the water resistant substrate side of the ink receiving layer, such an ink jet recording sheet is placed on the water resistant substrate. After forming the ink receiving layer, a printing layer is formed on the ink receiving layer, and then the pressure-sensitive adhesive layer is formed on the ink receiving layer (typically also on the printing layer). Can be manufactured.

  When the ink jet recording sheet of the present invention is calendered (smoothed), the calendering may be performed on at least the surface of the ink receiving layer after the ink receiving layer is formed.

  For example, machine calendar, TG calendar, super calendar, soft calendar, gloss calendar, compact calendar, mat super calendar, mat calendar are known as the calendar process (smoothing process) for the ink jet recording sheet (the surface of the ink receiving layer). This can be done using a calendar device.

The calendar device may be any of an off type separated from the coater and an on type integrated with the coater.
Among the calendar devices, the roll includes, for example, a rigid roll and an elastic roll.
Examples of the rigid roll include a metal roll and a roll whose metal surface is mirror-finished with hard chrome plating or the like.
Examples of the elastic roll include a roll made of resin such as polyurethane, epoxy resin, polyamide, phenol resin, or polyacrylate; a roll formed of cotton, nylon, asbestos, aramid fiber, or the like.

  The conditions for calendering are appropriately selected according to the required quality depending on the temperature of the rigid roll, calendering pressure, number of nips, roll speed, paper moisture before calendering, and the like.

  Although the processing temperature at the time of a calendar process is not specifically limited, For example, it can be 10-50 degreeC.

Although the pressure at the time of a calendar process is not specifically limited, For example, it can be set as 50-400 kN / m.
The pressure at the time of calendar processing is adjusted, for example, by adjusting the pressure when pressing a pair of rolls in the calendar device against the inkjet recording sheet to be processed and the distance between the roll surfaces of the pair of rolls. it can. The method of adjusting the pressure during calendar processing by adjusting the distance between roll surfaces is suitable for calendar processing on a small scale. For example, the pressure during the calendar process can be easily adjusted by setting the distance between the roll surfaces to preferably 10 to 400 μm according to the thickness of the inkjet recording sheet to be processed.

Next, the overall configuration of the inkjet recording sheet of the present invention will be described with reference to the drawings.
FIG. 1 is a cross-sectional view schematically showing an embodiment of an inkjet recording sheet of the present invention. FIG. 2 is a cross-sectional view schematically showing another embodiment of the ink jet recording sheet of the present invention.
In FIG. 2, the same components as those shown in FIG. 1 are denoted by the same reference numerals as in FIG.
In addition, in the drawings used in the following description, in order to make the features of the present invention easier to understand, for the sake of convenience, a part that is a main part may be shown in an enlarged manner, and the dimensional ratios and the like of each component are the same as in practice. Not necessarily.

An ink jet recording sheet 1 shown in FIG. 1 includes an ink receiving layer 12 only on one surface (which may be referred to as a “first surface” in this specification) 11 a of a water-resistant substrate 11. A pressure-sensitive adhesive layer 13 is provided on a surface 12a of the layer 12 opposite to the water-resistant substrate 11 side (sometimes referred to as “first surface” in this specification) 12a.
The inkjet recording sheet 1 further includes a printing layer 14 in a region on the first surface 12 a side of the ink receiving layer 12. The print layer 14 is formed by an inkjet printing method, and forms a print, a pattern, an image, or the like.
The inkjet recording sheet 1 corresponds to a so-called post-glue type releasable sheet, and is usually a pressure-sensitive adhesive layer after inkjet printing is performed on the ink receiving layer 12 and the printing layer 14 is formed. 13 is formed.

  In FIG. 1, reference numeral 12 b indicates the surface of the ink receiving layer 12 on the water-resistant substrate 11 side (sometimes referred to as “second surface” in this specification).

  The ink jet recording sheet 2 shown in FIG. 2 is on the first surface 11a of the water-resistant substrate 11 and on the other surface (sometimes referred to as “second surface” in this specification) 11b (that is, on both surfaces). In addition, both are provided with an ink receiving layer 12, and a pressure sensitive adhesive layer 13 is provided on the first surface 12 a of these ink receiving layers 12.

As for the two ink receiving layers 12 and 12 in the inkjet recording sheet 2, those provided on the first surface 11 a of the water-resistant substrate 11 are shown as the first ink receiving layer 121, if necessary. What is provided on the second surface 11b of the water-resistant substrate 11 is shown as a second ink receiving layer 122 to distinguish from each other.
Similarly, as for the two pressure-sensitive adhesive layers 13 and 13 in the inkjet recording sheet 2, the first pressure-sensitive adhesive layer provided on the first surface 11a side of the water-resistant substrate 11 may be used as necessary. What is shown as the adhesive layer 131 and is provided on the second surface 11b side of the water-resistant base material 11 is shown as a second pressure-sensitive adhesive layer 132 to distinguish from each other.

The inkjet recording sheet 2 further includes a region on the first surface 11a side of the ink receiving layer 12 (in other words, a surface (first surface) 121a opposite to the water-resistant substrate 11 side of the first ink receiving layer 121). On the side and the surface (first surface) 122a side opposite to the water-resistant substrate 11 side of the second ink receiving layer 122), the same printing layer 14 as in the case of the inkjet recording sheet 1. It has.
The ink jet recording sheet 2 corresponds to a so-called post-glue type releasable sheet, like the ink jet recording sheet 1, and usually, ink jet printing is performed on the ink receiving layer 12 to form the printing layer 14. After that, the pressure sensitive adhesive layer 13 is formed.

  In FIG. 2, reference numerals 121 b and 122 b indicate the surfaces (second surfaces) of the first ink receiving layer 121 and the second ink receiving layer 122 on the water-resistant substrate 11 side, respectively.

  1 and 2, the water-resistant substrate 11, the ink receiving layer 12 (first ink receiving layer 121, second ink receiving layer 122), and the pressure sensitive adhesive layer 13 (first pressure sensitive adhesive layer 131, first layer). The two pressure sensitive adhesive layers 132) are each described above.

  In FIG. 1 and FIG. 2, the ink jet recording sheet is shown in a state where the object to be bonded is not bonded to the pressure-sensitive adhesive layer, but the object to be bonded is bonded to the pressure-sensitive adhesive layer. It may be in a state of being applied, or the single ink jet recording sheet may be folded and bonded by a pressure sensitive adhesive layer.

  The ink jet recording sheet shown in FIGS. 1 and 2 is merely an example of the present invention, and the ink jet recording sheet of the present invention is not limited thereto.

For example, in the ink jet recording sheet of the present invention, the ink receiving layer may be provided on the entire surface to be formed of the water-resistant substrate, or may be provided only in a part of the region.
The pressure-sensitive adhesive layer may be provided on the entire surface of the ink receiving layer, or may be provided only in a part of the region. Further, when the ink receiving layer is provided only in a partial region of the surface to be formed of the water-resistant substrate (in other words, the region not covered by the ink receiving layer on the surface to be formed of the water-resistant substrate) The pressure sensitive adhesive layer may be provided in direct contact with the water resistant substrate.
Similarly to the pressure-sensitive adhesive layer, the print layer may be provided on the entire first surface of the ink receiving layer or may be provided only in a part of the region.

When the ink jet recording sheet of the present invention is viewed from above on the side where the ink receiving layer is provided and viewed in plan, the surface area of the ink receiving layer may be equal to or less than the surface area of the water-resistant substrate. As long as this condition is satisfied, there is no particular limitation.
Similarly, when the ink jet recording sheet of the present invention is viewed from above on the side where the pressure-sensitive adhesive layer is provided, the surface area of the pressure-sensitive adhesive layer is relative to the surface area of the water-resistant substrate. However, there is no particular limitation as long as this condition is satisfied.
The shapes of the pressure-sensitive adhesive layer, the ink receiving layer, and the water-resistant substrate when viewed in plan as described above can be arbitrarily set according to the purpose, and are not particularly limited.

The ink jet recording sheet of the present invention may be provided with a layer other than the ink receiving layer, the pressure-sensitive adhesive layer, and the printing layer on the water-resistant substrate, depending on the purpose.
As said other layer, an adhesive layer, an adhesive bond layer, a peeling film etc. are mentioned, for example.
In the present specification, the description of simply “adhesive layer” means an adhesive layer other than the pressure-sensitive adhesive layer (that is, a non-pressure-sensitive adhesive layer) unless otherwise specified. To do.

Examples of the pressure-sensitive adhesive layer and the adhesive layer include those for attaching and fixing an inkjet recording sheet to an object. When the ink jet recording sheet includes such a pressure-sensitive adhesive layer or adhesive layer, it is preferable that the ink-jet recording sheet further includes a release film on these layers, and the pressure-sensitive adhesive layer or adhesive layer is not exposed.
In addition, the inkjet recording sheet includes a release film on the pressure-sensitive adhesive layer, and the pressure-sensitive adhesive layer may not be exposed.

  Hereinafter, the present invention will be described in more detail with reference to specific examples. However, the present invention is not limited to the following examples.

<Base material>
In the following examples and comparative examples, the following materials were used as substrates.

<Raw material>
In the following examples and comparative examples, the following pigments and binders were used.

In the following Examples and Comparative Examples, materials shown below were used as raw materials other than the pigment and the binder.
[Cationic resin fixing agent]
(C) -1: Alkylamine-epichlorohydrin polycondensate ("Jetfix 260" manufactured by Satoda Chemical Industries)

<Pressure-sensitive adhesive composition>
In the following examples and comparative examples, the pressure-sensitive adhesive compositions shown below were used.

<< Manufacture of inkjet recording sheet >>
[Example 1]
To pigment (a) -1 (25 parts by mass) and pigment (a) -2 (75 parts by mass), binder (b) -1 (12.5 parts by mass (solid content)), binder (b) -2 ( 2.5 parts by mass (solid content)) and a cationic resin fixing agent (c) -1 (2.78 parts by mass (solid content)) are added, and these components are sufficiently stirred at room temperature. Dispersion was performed to obtain a composition for an ink receiving layer as a dispersion.
Next, using the wire bar coater, the ink receiving layer composition obtained above was applied onto the substrate (z) -1 at a coating amount such that the amount of ink receiving layer formed was 9 g / m ^2. Then, the ink receiving layer having a thickness of about 10 μm was formed by drying at 105 ° C. to obtain a laminated sheet.
The obtained laminated sheet was further calendered at room temperature. At the time of calendering, the distance between the roll surfaces of the pair of metal rolls was set to 25 μm, and the laminate sheet was passed between the roll surfaces to press the laminate sheet.

Next, in order to obtain an ink jet recording sheet in the surface of the ink receiving layer in the calendered laminated sheet, a pressure-sensitive adhesive layer is formed in a region that becomes an overlapping surface when the laminated sheet is folded. The pressure-sensitive adhesive composition (y) -1 was applied at a coating amount of 3 to 5 g / m ² . One hour after the coating, the laminated sheet was folded and pressure-bonded under such conditions that the peel strength after pressure bonding was 2N / 6 inch (15.24 cm) to obtain an ink jet recording sheet. The obtained inkjet recording sheet is obtained by adhering the formed pressure-sensitive adhesive layers to each other so that the overlapping surfaces are detachably bonded to each other via the pressure-sensitive adhesive layers. is there.

[Examples 2-8, Comparative Examples 1-8]
Table 5 shows at least one of the types of base materials, the types and amounts of the components of the ink receiving layer composition, the ink receiving layer formation amount, and the pressure sensitive adhesive composition types. Except for the points, an ink jet recording sheet was produced in the same manner as in Example 1.
In addition, the description of "-" in the column of the compounding component in Table 5 means that the component is not compounded.

<< Evaluation of inkjet recording sheet >>
The following items were evaluated for the above-obtained inkjet recording sheet or the laminated sheet after the calendar treatment (hereinafter sometimes simply referred to as “laminated sheet”) before making the inkjet recording sheet. The results are shown in Table 5.

[Dot bleeding]
Dot bleeding was evaluated by the dot shape factor. The evaluation sample was printed on the ink-receiving layer of the laminated sheet after the calendar treatment using a desktop ink jet printer at a concentration of 10% so that dots do not overlap with a size of 2 cm × 2 cm (single color printing) ). Next, a microscopic image of the surface of the laminated sheet was taken and analyzed using a dot analyzer (“DA6000” manufactured by Oji Scientific Instruments). Specifically, the perimeter and area of the dots were measured, and the dot shape factor was calculated using the following formula.
Dot shape factor = (perimeter length) ² / (4π × area)

  The dot shape factor is 1 when the dot is a perfect circle, and increases as the dot shape moves away from the perfect circle, that is, the dot is blurred. It should be noted that the dot shape factor measured with a desktop ink jet printer (printing speed 250f (76.2m) / min) is sufficiently correlated with the dot shape factor measured with a high speed ink jet printer (printing speed 500f (152.4m) / min). Confirmed in advance that there is.

By using the above method, the dot shape coefficient was calculated for about 30 dots to obtain an average value, and dot bleeding was evaluated according to the following evaluation criteria. The results are shown in Table 6. The numerical value in parentheses in the “dot blur” column in Table 6 is the average value of the dot shape coefficients.
(Evaluation criteria)
A: The average value of the dot shape factor is 1.8 or less, and dot bleeding is completely or highly suppressed.
B: The average value of the dot shape factor is more than 1.8 and 2.0 or less, and dot bleeding is suppressed.
C: The average value of the dot shape factor exceeds 2.0, and dot bleeding is not suppressed.

[Ink dryness]
Using an ink jet printer, printing was performed with four colors of ink of cyan, magenta, yellow, and black on the ink receiving layer of the laminated sheet after the calendar process. More specifically, the printing was performed by changing the printing density for each color from 100% to 400% in units of 10%.
Next, immediately after the printing was completed, a transparent polyethylene terephthalate film (thickness: 100 μm) was superimposed on the printing surface of the laminated sheet, and pressed firmly to make contact.
Next, with this film kept in close contact with the print surface, the maximum print density of ink not transferred from the print surface to the close contact surface is confirmed by visual observation from the side opposite to the close contact surface to the print surface. Then, the drying property of the ink was evaluated according to the following evaluation criteria. The results are shown in Table 6. In Table 6, the numerical value in parentheses in the “ink drying property” column is the maximum print density. In this evaluation method, it was confirmed in advance that the evaluation results would not vary as long as the film was in close contact with the printing surface.
(Evaluation criteria)
A: The maximum printing density of the ink is 300% or more, the drying property is excellent, and the high-speed printing suitability is achieved.
B: The maximum print density of the ink is 190% or more and less than 300%, the drying property is good, and the ink has high-speed printability.
C: The maximum printing density of the ink is less than 190%, the drying property is inferior, and the high-speed printability is not achieved.

  The reason why the spread of the dots and the drying property of the ink were evaluated on the laminated sheet after the calendar treatment was that the ink-jet printing target was not the pressure-sensitive adhesive layer formed on the ink-receiving layer, but the ink-receiving layer. This is because.

[Ink-receiving layer strength]
The laminated sheet after the calendar process was cut into a size of 70 mm × 40 mm to prepare a test piece. In addition, a polyethylene terephthalate (PET) film having a size of 20 mm × 40 mm and a thickness of 75 μm was prepared. Laminating the test piece and the PET film so that the entire surface of one surface of the PET film overlaps with the one surface of the test piece and the surface of the test piece having the ink receiving layer is an exposed surface. Thus, a first laminate was obtained. Further, the first laminate was sandwiched between two stainless steel mirror plates having a size larger than that of the first laminate and a thickness of 1 mm to obtain a second laminate. At this time, the first laminate was disposed so that the entire surface of both surfaces of the first laminate overlapped with the mirror plate. Thereby, in the second laminate, the ink receiving layer of the test piece is in direct contact with the mirror plate. Next, using a heat pressurization apparatus (laminator) capable of pressurization and heating at the same time, the second laminate is sandwiched between the two heat pressurization treatment surfaces, a temperature of 50 ° C., a pressure of 10 kN, Under the condition of a treatment time of 30 seconds, a heat and pressure treatment was performed on the second laminate. At this time, the second laminate was disposed so that the entire surface of both surfaces of the second laminate overlapped with the heat-pressurized surface. Thereby, the pressure at the time of a heat pressurization process was equally applied to the whole area | region which has overlapped with the said PET film among the surfaces of the said test piece.
After completion of the heating and pressurizing treatment, the surface of the mirror plate that was in direct contact with the test piece was visually observed, whether or not the ink receiving layer was transferred to the mirror plate, and if there was a transfer, From the viewpoint, the strength of the ink receiving layer was evaluated according to the following evaluation criteria. The results are shown in Table 6.
(Evaluation criteria)
A: Transfer of the ink receiving layer to the mirror plate is not recognized, and the ink receiving layer has sufficient strength to withstand high-speed supercalendering.
B: Although transfer of the ink receiving layer to the mirror plate is slightly observed, the ink receiving layer has a strength enough to withstand high-speed supercalendering.
C: The transfer of the ink receiving layer to the mirror plate is clearly recognized, and the ink receiving layer does not have a strength enough to withstand high-speed supercalendering.

[Water resistance of ink receiving layer]
Using the same desktop inkjet printer as that used in the above-described dot bleeding evaluation, printing was performed on the entire surface of the ink receiving layer of the laminated sheet after the calendar process with a black ink at a density of 100% (solid printing). It was. The ink after printing was completely dried.
Next, the laminated sheet after printing was immersed in a sufficient amount of tap water for 1 minute, and the ink receiving layer was rubbed with a finger in tap water in that state. Next, the state of the ink receiving layer was visually observed, and the water resistance of the ink receiving layer was evaluated according to the following evaluation criteria from the viewpoint of whether the ink receiving layer was broken or peeled, and if there was breakage or peeling. The results are shown in Table 6. As described above, the reason why the black sheet is printed on the laminated sheet is to make it clearly visible whether the ink receiving layer is broken or peeled off.
In this specification, in order to distinguish “water resistance of the ink receiving layer” in this item from “water resistance of the ink receiving layer at the time of wet opening” described later, “ink at the time of non-wetting opening” is used. It may be referred to as “water resistance of the receiving layer”.
(Evaluation criteria)
A: The ink receiving layer is not broken or peeled off, and the ink receiving layer is excellent in water resistance.
B: Although the ink receiving layer is slightly broken or peeled off, there is no problem in practical use, and the ink receiving layer has good water resistance.
C: Breakage or peeling of the ink receiving layer is clearly recognized, causing a problem in practical use, and the ink receiving layer is inferior in water resistance.

[Openability]
In order to obtain an ink jet recording sheet among the surfaces of the ink receiving layer in the laminated sheet after the calendar process, the dot bleeding evaluation described above is performed on one surface that becomes a superimposed surface when the laminated sheet is folded. Using the same desktop ink jet printer as used at the time, printing was performed with a black ink at a density of 100% (solid printing). The ink after printing was completely dried.
Next, both surfaces of the surface of the ink receiving layer in the laminated sheet after printing are the overlapping surfaces (in other words, both the surface on which the ink receiving layer is printed and the surface on which printing is not performed). The pressure sensitive adhesive composition (y) -1, (y) -2, or (y) -3 is applied at a coating amount such that the pressure sensitive adhesive layer is formed in an amount of 3 to 5 g / m ^2. Worked. One hour after the coating, the laminated sheet was folded and pressure-bonded under such conditions that the peel strength after pressure bonding was 2N / 6 inch (15.24 cm) to obtain an ink jet recording sheet. The obtained inkjet recording sheet is obtained by adhering the formed pressure-sensitive adhesive layers to each other so that the overlapping surfaces are detachably bonded to each other via the pressure-sensitive adhesive layers. is there.

Two hours after the overlapping surfaces were bonded to each other (after the ink jet recording sheet was produced), an attempt was made to open the ink jet recording sheet in a normal state (an attempt was made to remove it again). Next, when the container can be opened, the state of the base material and the ink receiving layer of the ink jet recording sheet after opening is visually observed to determine whether the base material is broken and whether the ink receiving layer is broken or peeled off. From the viewpoint of the degree, when the substrate was further broken or the ink receiving layer was broken or peeled off, the openability of the inkjet recording sheet was evaluated according to the following evaluation criteria. The results are shown in Table 6. In addition, as described above, the reason for printing with the black ink on the ink jet recording sheet is to make it clearly visible whether the ink receiving layer is broken or peeled off. In the following description, the simple description of “openability” means the above-described “openability of an ink jet recording sheet in a normal state (not at the time of wet opening described later)” unless otherwise specified. .
(Evaluation criteria)
A: The overlapping surface of the inkjet recording sheet can be re-peeled, the ink receiving layer is not broken or peeled off, the substrate is not broken, and the openability is excellent.
B: The peeled surface of the ink jet recording sheet can be peeled again, and the ink receiving layer is slightly broken or peeled off, or the substrate is slightly broken. Is good.
C: The overlapping surface of the ink jet recording sheet cannot be re-peeled, or it can be re-peeled, but the ink receiving layer is severely broken or peeled off, or the substrate is severely broken. Recognized, problematic in practical use, inferior in openability.

[Water resistance of substrate when wet opened]
When the above “openability” was evaluated, the water resistance of the substrate at the time of wet opening was separately evaluated for the inkjet recording sheet whose evaluation result was A or B by the following procedure.
That is, an ink jet recording sheet was obtained by the same method as in the above evaluation of “openability”.
Next, after the obtained inkjet recording sheet was immersed in a sufficient amount of tap water for 2 hours, it was lifted from the tap water, excess moisture was removed using a dry towel, and opening was immediately attempted (re-peeling) Tried to let them). Next, the state of the base material of the inkjet recording sheet is visually observed. From the viewpoint of whether the base material is torn or not, to what extent it is torn, the water resistance of the base material at the time of wet opening is determined according to the following evaluation criteria. Sex was evaluated. As described above, since the ink jet recording sheet was printed with the black ink, the presence or absence of tearing of the base material can be clearly seen. The results are shown in Table 6.
(Evaluation criteria)
A: The base material is not torn and the base material is excellent in water resistance.
B: Some tearing of the substrate is observed, but there is no problem in actual use, and the substrate has good water resistance.
C: Breaking of the substrate is clearly recognized, causing problems in practical use, and the substrate is inferior in water resistance.

[Water resistance of ink receiving layer when wet opened]
At the time of the evaluation of the “water resistance of the substrate at the time of wet opening”, the state of the ink receiving layer at the time of wet opening was simultaneously observed for the ink jet recording sheet having an evaluation result of A or B. Then, from the viewpoint of the presence or absence of breakage or peeling of the ink receiving layer and the degree of breakage or peeling, the water resistance of the ink receiving layer at the time of wet opening was evaluated according to the following evaluation criteria. At the time of this evaluation, since the overlapping surface of the ink receiving layer is bonded via the pressure-sensitive adhesive layer, if the ink receiving layer breaks or peels off on the re-peeled overlapping surface, the overlapping surface The transfer of the ink receiving layer from one surface of the ink to the other surface may be observed. Further, as described above, since the ink jet recording sheet was printed with the black ink, the presence or absence of breakage and peeling of the ink receiving layer can be clearly seen. The results are shown in Table 6.
(Evaluation criteria)
A: The ink receiving layer is not broken or peeled off, and the ink receiving layer is excellent in water resistance.
B: Although the ink receiving layer is slightly broken or peeled off, there is no problem in practical use, and the ink receiving layer has good water resistance.
C: Breakage or peeling of the ink receiving layer is clearly recognized, causing a problem in practical use, and the ink receiving layer is inferior in water resistance.

  Note that “-” in the evaluation result column of Table 6 means that the item was not evaluated.

  As is apparent from the above results, the ink jet recording sheets of Examples 1 to 7 have good dot bleeding suppression effects and good ink drying properties, and have good characteristics as ink jet recording sheets. All of these ink jet recording sheets have the strength of the ink receiving layer, the water resistance of the ink receiving layer at the time of non-wet opening and wet opening, the water resistance of the substrate at the time of wet opening, and the opening of the ink jet recording sheet. All were good.

In contrast, the ink jet recording sheet of Comparative Example 1 was insufficient in strength of the ink receiving layer because polyvinyl alcohol was not used as a binder.
The ink jet recording sheets of Comparative Examples 2 to 4 were inferior in the openability of the ink jet recording sheets by using the pressure-sensitive adhesive composition (y) -2.
The ink jet recording sheet of Comparative Example 5 was inferior in the opening property of the ink jet recording sheet by using the pressure-sensitive adhesive composition (y) -3.

In the inkjet recording sheet of Comparative Example 6, the ratio of the total content of the cationic styrene resin and polyvinyl alcohol to the total content of 100 parts by mass of the first and second aggregated light calcium carbonates was too low. The water resistance of the ink receiving layer at the time of non-wetting opening was insufficient.
The ink jet recording sheet of Comparative Example 7 received ink at the time of non-wetting opening because the ratio of the polyvinyl alcohol content to the total content of 100 parts by mass of the first and second aggregated light calcium carbonates was too high. The water resistance of the layer was insufficient.
In the inkjet recording sheet of Comparative Example 8, dot bleeding was suppressed because the ratio of the polyvinyl alcohol content to the total content of 100 parts by mass of the first and second aggregated light calcium carbonates was too high. In addition, the water resistance of the ink-receiving layer at the time of non-wetting opening was insufficient.

The inkjet recording sheets of Comparative Examples 9 to 11 were based on the use of the substrate (z) -2, so that the water resistance of the substrate at the time of wet opening was insufficient, and the substrate was severely torn.
Furthermore, the ink jet recording sheet of Comparative Example 10 did not suppress dot bleeding because no cationic resin other than the cationic styrene resin was used as the ink fixing agent.
Furthermore, the inkjet recording sheet of Comparative Example 11 does not use a cationic styrene resin as a binder, and the ratio of the content of polyvinyl alcohol to the total content of 100 parts by mass of the first and second aggregated light calcium carbonates is Due to being too high, water resistance of the ink receiving layer at the time of non-wetting opening was insufficient.

  INDUSTRIAL APPLICABILITY The present invention can be used as an ink jet recording sheet that is excellent in ink jet printing suitability and is intended to be a releasable sheet for performing a high-speed super calendar process.

  1, 2 ... Recording sheet for inkjet, 11 ... Water-resistant substrate, 11a ... First surface of water-resistant substrate, 11b ... Second surface of water-resistant substrate, 12 ... Ink-receiving layer, 12a ... first surface of ink-receiving layer, 12b ... second surface of ink-receiving layer, 121 ... first ink-receiving layer, 121a ... first of first ink-receiving layer Surface, 121b ... second surface of the first ink receiving layer, 122 ... second ink receiving layer, 122a ... first surface of the second ink receiving layer, 122b ... of the second ink receiving layer Second surface, 13 ... Pressure-sensitive adhesive layer, 131 ... First pressure-sensitive adhesive layer, 132 ... Second pressure-sensitive adhesive layer, 14 ... Print layer

Claims (2)

An ink jet recording sheet comprising: a water resistant substrate; an ink receiving layer formed on at least one surface of the water resistant substrate; and a pressure sensitive adhesive layer formed on the ink receiving layer. There,
The ink receiving layer contains, as a pigment, first and second aggregated light calcium carbonates having different average secondary particle sizes,
The ink receiving layer contains a cationic styrene resin and polyvinyl alcohol as a binder,
The ink receiving layer contains a cationic resin other than the cationic styrene resin as an ink fixing agent,
In the ink receiving layer, the ratio of the total content of the cationic styrene resin and polyvinyl alcohol to the total content of the first and second aggregated light calcium carbonates is 11 to 25% by mass,
In the ink receiving layer, the ratio of the content of the polyvinyl alcohol to the total content of the first and second aggregated light calcium carbonates is 7% by mass or less.
The pressure-sensitive adhesive layer contains one or two or more adhesive bases selected from the group consisting of natural rubber-based adhesives and synthetic rubber-based adhesives, and a filler. An ink jet recording sheet capable of releasably bonding together mating surfaces. The average secondary particle diameter of the first aggregated light calcium carbonate is less than 1 μm, and the average secondary particle diameter of the second aggregated light calcium carbonate is 2 to 5 μm,
In the ink receiving layer, a ratio of [content (mass) of first aggregated light calcium carbonate]: [content (mass) of second aggregated light calcium carbonate] is 22:78 to 78:22. The inkjet recording sheet according to claim 1.

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