JP3842832B2 - Inkjet recording material - Google Patents

Description

【０１００】
【発明の効果】
実施例から明かな様に、塗布乾燥時のインク吸収層のひび割れ発生を抑制し、アルミナ水和物と水溶性バインダーとを含むインク吸収層を有するインクジェット用被記録材を提供することができた。特に、カラー記録での要望が高い写真調の光沢を有するインクジェット用被記録材、ＯＨＰフィルムとして使用可能な透明性が高いインクジェット記録用被記録材を提供することができた。[0001]
[Industrial application fields]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a recording material used for a printer or plotter using an inkjet recording method, and particularly an inkjet recording material having high gloss for photographic printing paper, which is highly demanded in color recording, and an OHP film. It relates to a highly transparent recording material that can be used as a recording material.
[0002]
[Prior art]
In recent years, due to remarkable progress of inkjet printers and plotters, full-color and high-definition images can be easily obtained. Accordingly, development of inkjet recording materials other than conventional high-quality paper for ink-jet recording and coated paper is desired.
[0003]
The ink jet recording system records images, characters, and the like by causing micro droplets of ink to fly and adhere to a recording material such as paper according to various operating principles. Inkjet printers and plotters have features such as excellent high-speed printing and low noise, great flexibility in recording patterns, no need for development and fixing, and the ability to form complex images accurately and quickly. It is attracting attention. In particular, as a hard copy creation device for image information such as characters and various graphics created by a computer, it has rapidly spread in recent years in various applications. Further, it is easy to perform multicolor recording by using a plurality of ink nozzles. The color image formed by the multi-color ink jet method can be recorded inferior to multi-color printing by the plate making method or printing by the color photographic method, and in applications where the number of copies is small Since it is cheaper than printing and photographic techniques, it is being widely applied.
[0004]
Recently, inkjet printers and the like that can output high-definition images comparable to images of silver salt photographs are commercially available at low cost. Ink-jet recording materials are very cheap compared to the silver halide photography method, but they are very inexpensive, so the display image is frequently replaced with an electric signboard or product sample that requires a large area image. There are significant economic benefits for users. Also, it has been impossible to create an image on a personal computer, which has become popular recently, and correct the color scheme and layout while looking at the printout. There is also an advantage that such operations can be performed easily.
[0005]
Recently, as a field of use of inkjet printers and plotters, full-color images such as production of color blocks in the printing field where image quality close to that of photographs is required, and output of design images in the design department, etc. For example, recording or image information created by a computer is recorded on a transparent recording material by an ink jet printer and used in an OHP (overhead projector) for a conference presentation or the like.
[0006]
The above-mentioned demand from the field of use of ink jet printers and plotters, and the widespread use of ink jet printers and plotters, diversifies the demand for recording materials. There is a demand for a recording material having suitability, a highly transparent recording material that can be used as an OHP film, and the like.
[0007]
Efforts have been made from the aspect of apparatus and ink composition so that the recording material used in the ink jet recording system can be used for normal printing, writing quality paper or coated paper. However, with the improvement in performance of ink jet recording apparatuses such as high speed, high definition, or full color, and the expansion of applications, more advanced characteristics have been required for recording materials. That is, as the recording material, the print dot density is high, the color tone is bright and vivid, the ink absorption is fast, and even when the print dots overlap, the ink does not flow out or bleed, Is not required to be larger than necessary, and the periphery is smooth and unblurred. In particular, in the case of color recording, not only single-color recording of yellow, magenta, cyan, and black, but also multi-color recording in which these colors are overlapped, and the ink adhesion amount is further increased, so extremely strict performance is required.
[0008]
Examples of conventional inkjet recording materials include JP-A Nos. 55-51583, 56-157, 57-107879, 57-107880, 59-230787, 62-160277, and 62. -184879, 62-183382, 64-11877, and the like, recording materials obtained by applying a silicon-containing pigment such as silica to a paper surface together with an aqueous binder have been proposed. Pigment fine particles such as silica used in the examples have a large oil absorption amount, and recording materials using these generally reach a certain level in terms of ink absorption capacity and absorption speed. Since it is necessary to introduce a large amount of pigment into the coating layer, there is a drawback that the surface gloss of the recording material itself is lowered. If colloidal silica is used instead of silica for the purpose of improving glossiness, the ink absorbability is deteriorated as described in JP-A-56-157, which is not preferable.
[0009]
In addition, as an inkjet recording material having a glossy surface, cast coated paper obtained by cast finishing while the coating layer is in a wet state is described in JP-A-6-320857, etc. The surface gloss is extremely low compared to silver salt photographs, and the texture of silver salt photographs cannot be obtained.
[0010]
On the other hand, as an ink jet recording material having improved transparency and gloss, a material in which an ink absorbing layer made of a resin is provided on a support has been proposed. Examples of resins used for such applications include polyvinyl pyrrolidone, vinyl pyrrolidone-vinyl acetate copolymers, and the like disclosed in JP-A-57-38185 and JP-A-62-184879. -168651, 60-171143, 61-134290, a resin composition mainly composed of polyvinyl alcohol, vinyl alcohol and olefin or styrene disclosed in JP-A-60-234879 A copolymer with maleic anhydride, a cross-linked product of polyethylene oxide and isocyanate shown in JP-A-61-74879, a mixture of carboxymethylcellulose and polyethylene oxide shown in JP-A-61-181679, Poly as shown in Japanese Utility Model Publication No. 61-132377 A polymer obtained by grafting methacrylamide to nyl alcohol, an acrylic polymer having a carboxyl group as disclosed in JP-A-62-220383, a polyvinyl acetal polymer as disclosed in JP-A-4-214382, and the like Various ink-absorbing polymers such as a crosslinkable acrylic polymer as described in Japanese Patent No. 282282 and Japanese Patent No. 4-285650 have been proposed. JP-A-4-282282, JP-A-4-285650, and the like have proposed recording materials in which a polymer matrix composed of a crosslinkable polymer and an absorbent polymer are mixed. Such an ink absorbing layer has a drawback that its absorption speed is slower than that of an ink absorbing layer made of pigment fine particles such as silica.
[0011]
As an ink jet recording material having a high ink absorption rate and improved transparency and gloss, an ink jet recording material using alumina hydrate has been proposed in recent years. For example, JP-A-60-232990 has been proposed. JP-A-60-245588, JP-B-3-24906, JP-A-2-276670, JP-A-3-21582, JP-A-4-37576, JP-A-4-67986, JP-A-5-16517, No. 24335, No. 5-32037, No. 5-50739, No. 5-286228, No. 5-301441, No. 6-48016, No. 6-55829, No. 6-183126, No. 6-184854 No. 6-199034, 6-199035, 6-218324, 6-255235, 6-262844, 6-270530 6-286297, 6-297831, 6-297732, 6-316145, 7-68919, 7-68720, 7-76161, 7-76162, 7 As described in JP-A-82694, JP-A-7-89221 and the like, there is disclosed an ink jet recording material in which a fine alumina sol is coated on a support surface together with a water-soluble binder. However, the ink absorption layer made of alumina hydrate has a coating amount of 20 g / m as described in JP-A-5-24335.²Since the ink absorption capacity is not enough if it is not more than about, thick film coating is necessary, but if thick film coating is applied, the ink absorption layer is very likely to crack during drying and suppresses cracking during drying. There is a need.
[0012]
As a method for suppressing cracks in the coating film when the ink absorption layer made of alumina hydrate is applied and dried, polyvinyl alcohol is used as a binder as described in JP-A-7-76161, boric acid or There has been proposed a method for suppressing cracking by gelling polyvinyl alcohol as a binder with borate and improving the strength of the coating film. However, the gelation reaction between polyvinyl alcohol, boric acid and borate is very fast, and the change in the viscosity of the coating solution over time cannot be avoided, resulting in poor coating stability. In addition, the gelled product may cause streaks, which may cause deterioration of surface quality. Japanese Patent Application Laid-Open No. 6-218324 proposes a method of applying a coating liquid made of alumina hydrate onto a support and spraying ammonia gas before the solvent is removed to cause gelation. However, ammonia gas is not only highly corrosive but also explosive and dangerous. In addition, it is necessary to recover surplus ammonia gas, which is not desirable in terms of the convenience of operation and equipment. As a method for solving the above-mentioned problems, Japanese Patent Application Laid-Open No. 7-89221 proposes an ink jet recording material having an ink absorbing layer made of alumina hydrate and gelatin. This method utilizes the property that gelatin solution dissolved in warm water gels at low temperature. However, this method requires a special curtain coater that can be heated, and a cooling zone for gelling gelatin before the drying zone for removing the solvent. Undesirable in terms. Further, when the drying temperature is raised, the gelatinized gelatin is redissolved, so it is necessary to lower the coating speed at a low temperature for drying, which is not desirable from the viewpoint of productivity.
[0013]
[Problems to be solved by the invention]
An object of the present invention is to provide an ink jet recording material having an ink absorbing layer containing an alumina hydrate and a water-soluble binder while suppressing the occurrence of cracks in the ink absorbing layer during coating and drying. In particular, the present invention is to provide an ink jet recording material having high photographic gloss, which is highly demanded in color recording, and a highly transparent ink jet recording material usable as an OHP film.
[0014]
[Means for Solving the Problems]
The problems of the present invention are solved by the means described below. That is, in an ink jet recording material in which an ink absorbing layer is provided on a support, the ink absorbing layer is used as an alumina hydrate and a water-soluble binder.At least one selected from chitosan or nonionic cellulose etherAnd a viscosity of a 2% by weight aqueous solution as the water-soluble binder is 200 cps or more at 20 ° C.10000 cps or lessThis was solved by using a water-soluble binder.
[0015]
It is difficult to increase the concentration of the alumina hydrate dispersion in a stable dispersion state, and a stable dispersion cannot be obtained unless it is usually 20% by weight or less, preferably 15% by weight or less. In order to obtain a good ink absorption capacity, the solid content coating amount is 20 g / m.²Or more, preferably 30 to 50 g / m²The amount of coating liquid is at least 100 g / m.²Or more, preferably 200 to 500 g / m²Must be able to be coated on the support.
[0016]
However, when an ordinary water-soluble binder such as polyvinyl alcohol is used, the fluidity of the coating liquid is high, so that the coating liquid flows when the coating amount is large, and it is difficult to form a uniform film.
[0017]
Alumina hydrate has thixotropic properties, and the apparent viscosity significantly increases in a stationary state. Furthermore, thixotropy appears with increasing concentration. For this reason, microscopic viscosity changes occur inside the coating during drying, and both a small portion where the thixotropy appears and the apparent viscosity suddenly rises and a small portion with low viscosity while maintaining fluidity occur simultaneously. This contributes to cracking of the ink absorbing layer (coating film).
[0018]
On the other hand, the viscosity of the water-soluble binder of the present invention is not only sufficient to prevent the coating liquid from flowing even when the coating amount is large, but also exhibits thixotropic properties even when microscopic viscosity changes occur. Since the viscosity of the minute portion which is not present has a viscosity high enough to prevent fluidity, the occurrence of cracks in the ink absorbing layer (coating film) could be prevented.
[0019]
As the alumina hydrate used in the present invention, an alumina hydrate selected from a boehmite structure, a pseudo boehmite structure or an amorphous structure is preferable, and an alumina hydrate having a pseudo boehmite structure is particularly preferable. The major difference between the boehmite structure and the pseudo boehmite structure is that the hydration number is different, and the pseudo boehmite structure has a higher hydration number.
[0020]
In order for the alumina hydrate to have a sufficient ink absorption rate, the average pore radius of the alumina hydrate is preferably 1 to 10 nm, and particularly preferably 3 to 7 nm. If the pore radius is too small, it becomes difficult to absorb ink. On the other hand, if the pore radius is too large, the fixing of the dye in the ink is worsened and the image is blurred.
[0021]
In order for the alumina hydrate to have a sufficient ink absorption capacity, the pore volume of the alumina hydrate is preferably in the range of 0.3 to 0.8 ml / g, particularly 0.4 to 0.6 ml / g. The range of g is preferable. When the pore volume of the ink absorbing layer is large, cracking or powder falling may occur in the ink absorbing layer, and when it is small, ink absorption tends to be delayed. Furthermore, the solvent absorption amount of the ink absorption layer per unit area is 5 ml / m.²Above, especially 10ml / m²The above is preferable. When the solvent absorption amount per unit area is small, the ink may overflow particularly when multicolor printing is performed.
[0022]
The BET specific surface area is 70 to 300 m for the alumina hydrate to sufficiently absorb and fix the dye in the ink.²/ G is preferable. If the BET specific surface area is too large, the finer pore size distribution will be broken, and the efficiency of fixing the dye in the ink will be deteriorated, causing image blurring. Conversely, if the BET specific surface area is too small, it is difficult to disperse the alumina hydrate.
[0023]
In order to increase the concentration of the alumina hydrate dispersion, the number of surface hydroxyl groups of the alumina hydrate is 10²⁰It is preferable that it is at least pieces / g. When the number of surface hydroxyl groups is small, the alumina hydrate tends to aggregate and it is difficult to increase the concentration of the dispersion.
[0024]
In order to stabilize the dispersion of alumina hydrate, various acids are usually added to the dispersion. Examples of such acids include nitric acid, hydrochloric acid, hydrobromic acid, acetic acid, formic acid, ferric chloride, and aluminum chloride, but the present invention is not limited to these.
[0025]
The alumina hydrate can be produced by a known method such as hydrolysis of aluminum alkoxide such as aluminum isopropoxide, neutralization of aluminum salt with alkali, hydrolysis of aluminate. The particle size, pore size, pore volume, specific surface area, number of surface hydroxyl groups, etc. of the alumina hydrate can be controlled by the precipitation temperature, aging time, solution pH, solution concentration, coexisting salts and the like.
[0026]
The water-soluble binder having a viscosity of 200 cps or more at 20 ° C. used in the present invention is selected from chitosan or nonionic cellulose ether from the viewpoint of easy mixing with alumina hydrate. At least one water-soluble binderIs used.
[0027]
On the other hand, if the viscosity is too high, mixing with alumina hydrate becomes difficult. Therefore, the viscosity of the water-soluble binder used in the present invention is 10000 cps or less, preferably 5000 cps at 20 ° C. Inis there.
[0028]
In order to obtain good liquid properties when the coating liquid is prepared, it is preferable to select a water-soluble binder so that the viscosity of the prepared coating liquid is 100 cps or more. Moreover, since application | coating may become difficult when the viscosity of a coating liquid is too high, it is preferable to select a water-soluble binder so that the viscosity of a coating liquid may be 5000 cps or less.
[0029]
The chitosan according to the present invention is dissolved in water in the presence of an acid. In the present invention, an aqueous chitosan solution is an aqueous solution dissolved in water in the presence of an acid.
[0030]
Examples of acids used for dissolving chitosan in the present invention include formic acid, acetic acid, glycolic acid, oxalic acid, propionic acid, lactic acid, malonic acid, malic acid, tartaric acid, citric acid, glutaric acid, adipic acid, gluconic acid, and pimelin. Examples thereof include organic acids such as acids and suberic acid, and inorganic acids such as hydrochloric acid, nitric acid, and phosphoric acid.
[0031]
In the present invention, chitosan dissolves with stirring with the acid. Chitosan generally dissolves more easily as the liquid temperature is higher and the acid concentration is higher, but in the case of the present invention, if the acid concentration is too high, the color of the ink may change after printing, which is not preferable. . In the present invention, the amount of acid used for dissolving chitosan is 20 to 1000 parts by weight, more preferably 50 to 300 parts by weight, based on 100 parts by weight of the chitosan solid content.
[0032]
The chitosan according to the present invention is difficult to dissolve when the molecular weight is high and the degree of deacetylation is low. Conversely, if the molecular weight of chitosan is low and the degree of deacetylation is high, sufficient viscosity cannot be obtained when it is made into a solution, so the molecular weight is preferably about tens of thousands to hundreds of thousands.
[0033]
The temperature at the time of chitosan dissolution is not particularly restricted because it has almost no adverse effect on chitosan, but is preferably about 30 ° C to 80 ° C, more preferably about 40 to 60 ° C. Once chitosan is dissolved, the solubility does not change even if the liquid temperature falls.
[0034]
The chitosan according to the present invention is obtained by deacetylating chitin. Chitin can be dissolved in a solvent only by a special system such as N, N-dimethylacetamide / LiCl system, but water solubility is improved by deacetylation of chitin. The deacetylation can be changed by appropriately adjusting the alkali concentration used in the treatment, the treatment temperature, the treatment time, and the like. To dissolve in water in the presence of an acid, the degree of deacetylation is 65. % Or more.
[0035]
Chitin refers to β-1,4-poly (N-acetyl-D-glucosamine) that forms the exoskeleton of crustaceans such as shrimp and coral and insects, and is naturally bound to proteins. Biosynthesized in form. Chitin can be obtained by removing ash, protein, and the like from an exoskeleton of a living body by acid treatment such as hydrochloric acid and alkali treatment such as sodium hydroxide.
[0036]
When the chitosan according to the present invention is dissolved in an acidic aqueous solution, poly-N-acetyl in which the hydroxyl group or methylol group of the glucosamine residue is modified to esterification, etherification, carboxymethylation, hydroxy lower alkylation or the like. It may be a -D-glucosamine derivative. Moreover, the molecular weight can be adjusted during the process from the biological skeleton to the chitosan according to the present invention.
[0037]
On the other hand, cellulose ether is a generic name for cellulose derivatives derived from natural cellulose having anhydroglucose units, wherein some or all of the hydroxy groups of anhydroglucose units are substituted with alkyl groups, hydroxyalkyl groups, carboxyalkyl groups, and the like. There are ionic and non-ionic ones. Nonionic substances are classified into those that are soluble in cold water, those that are soluble in hot water and cold water, and those that are soluble only in an organic solvent, depending on the difference in solubility.
[0038]
The nonionic cellulose ether according to the present invention is a water-soluble nonionic cellulose ether, and those that are soluble in cold water include, for example, methylcellulose, methylhydroxyethylcellulose, methylhydroxypropylcellulose, and the like that are soluble in hot water and cold water. Examples of such include hydroxyethyl cellulose, but the present invention is not limited thereto.
[0039]
The nonionic cellulose ether according to the present invention is difficult to dissolve when the molecular weight is high, and may become a gel-like liquid. Conversely, when the molecular weight is low, sufficient viscosity cannot be obtained when the solution is used. Is preferably about tens of thousands to hundreds of thousands.
[0040]
If the amount of the water-soluble binder used in the present invention is small, the strength of the ink absorbing layer is weakened. Conversely, if the amount is too large, the ink absorption may be inhibited. % Is preferable, and 10 to 15% by weight is particularly preferable.
[0041]
Further, a plurality of water-soluble binders according to the present invention can be used in combination for the purpose of adjusting the liquid property of the coating solution, the coating solution viscosity, the film forming property and strength of the ink absorbing layer, and the like. Moreover, the water-soluble binder concerning this invention and a low-viscosity water-soluble binder can be used together. As such a low-viscosity water-soluble binder, completely saponified or partially saponified polyvinyl alcohol is particularly preferable from the viewpoints of miscibility with alumina hydrate, adjustment of coating solution viscosity, and the like, and starch and modified products thereof. , Gelatin and modified products thereof, natural polymer resins such as casein, pullulan, gum arabic, karaya gum, albumin or derivatives thereof, modified products of polyvinyl alcohol such as cationic modification, silanol modification, SBR latex, NBR latex, methyl methacrylate -Latexes such as butadiene copolymers and ethylene-vinyl acetate copolymers, vinyl polymers such as polyacrylamide and polyvinylpyrrolidone, polyethyleneimine, polypropylene glycol, polyethylene glycol, maleic anhydride or copolymers thereof Although etc. can be mentioned, the present invention is not limited thereto. Also when these water-soluble binders are used in combination, the total amount of the water-soluble binder is preferably 5 to 20% by weight, particularly preferably 10 to 15% by weight, based on the alumina hydrate. .
[0042]
In the present invention, the layer structure of the ink absorbing layer may be a single layer or a laminated structure.
[0043]
In the case of a laminated structure, the entire layer may be a layer containing alumina hydrate and a water-soluble binder, or a laminated structure of a layer comprising other components and a layer containing alumina hydrate and a water-soluble binder. It may be.
[0044]
In the case where all the layers are layers containing alumina hydrate and a water-soluble binder, the same layer may be laminated for each layer, or layers having different characteristics may be laminated. For example, in the case of a two-layer structure, a layer having a large pore diameter is provided in the upper layer for the purpose of increasing the ink absorption speed, and a layer having a small pore diameter is provided in the lower layer so as to be advantageous for translucency. It is possible to obtain a layer structure suitable for the purpose, such as balancing the translucency.
[0045]
In addition, when a laminated structure of a layer composed of other components and a layer containing alumina hydrate and a water-soluble binder is used, for example, for the purpose of improving abrasion resistance and scratch resistance, An ink-permeable protective layer such as colloidal silica can be provided on the layer containing the Japanese product and the water-soluble binder. In addition, for the purpose of increasing the ink absorption capacity, an ink absorption layer made of a water-soluble resin such as polyvinyl alcohol or polyvinyl pyrrolidone is provided below the layer containing alumina hydrate and a water-soluble binder. A layer structure can be used.
[0046]
In the present invention, when producing a recording material for inkjet, as a support used, for example, polyester film, resin-coated paper, coated paper, etc. are mainly used, but glass, aluminum foil, vapor-deposited paper, vapor-deposited film, The support is not particularly limited as long as the support can be provided with an ink receiving layer such as fabric.
[0047]
The ink absorbing layer is provided on at least one side of the support, but may be provided on both sides of the support for the purpose of preventing curling.
[0048]
In order to obtain an inkjet recording material having glossiness and texture of photographic printing paper, which is one of the problems of the present invention, not only the composition of the ink absorbing layer but also the characteristics of the support are important. In order to obtain glossiness and texture of a photographic paper tone, it is preferable to use a polyester film or resin-coated paper, and the hunter whiteness measured by JIS-P-8123 of the support is 65% or more. It is particularly preferred.
[0049]
Moreover, in order to have glossiness and texture of photographic printing paper tone, the Hunter whiteness measured by JIS-P-8123 on the ink absorbing layer side when the ink absorbing layer is provided on the support is 65%. The 60-degree specular gloss measured by JIS-Z-8741 on the ink absorption layer side is preferably 30% or more.
[0050]
When a polyester film is used as the support used in the present invention, the thickness is not particularly limited, but is preferably about 10 to 200 μm from the viewpoint of handling properties and printer paper passing suitability.
[0051]
In the present invention, the polyester film is an aromatic dicarboxylic acid such as terephthalic acid, isophthalic acid, naphthalenedicarboxylic acid or an ester thereof, and a polyhydric alcohol such as ethylene glycol, diethylene glycol, 1,4-butanediol, or neopentyl glycol. Polyester obtained by polycondensation into a film is usually formed into a film, and is usually subjected to orientation treatment by treatment such as roll stretching, tenter stretching, and inflation stretching.
[0052]
Specific examples of the polyester include polyethylene terephthalate, polyethylene butylene terephthalate, polyethylene-2,6-naphthalate, and those obtained by copolymerizing these with other components, but the present invention is not limited thereto.
[0053]
As a method of increasing the whiteness of the polyester film, a method of incorporating inorganic fine particles such as barium sulfate, titanium dioxide, calcium carbonate, silicon dioxide, aluminum oxide, kaolin, and talc inside the polyester film, or applying a white paint on the surface There are methods.
[0054]
Moreover, in order to provide cushioning properties and concealing properties, a cavity-containing film containing a large number of cavities inside the film, such as a foamed polyester film, can also be used.
[0055]
Even when resin-coated paper is used as the support used in the present invention, the thickness is not particularly limited, but a thickness of about 50 to 300 μm is preferable from the viewpoint of handling properties and printer paper passing suitability. Moreover, in order to obtain the texture of photographic printing paper, the one of about 200 to 300 μm is preferable.
[0056]
The base paper for the resin-coated paper is not particularly limited, and a commonly used paper can be used. However, for example, a smooth base paper used for a photographic support is preferable. As the pulp constituting the base paper, natural pulp, recycled pulp, synthetic pulp or the like is used alone or in combination of two or more. This base paper is blended with additives such as a sizing agent, a paper strength enhancer, a filler, an antistatic agent, a fluorescent whitening agent, and a dye generally used in papermaking. Further, a surface sizing agent, a surface paper strength agent, a fluorescent brightening agent, an antistatic agent, a dye, an anchor agent, and the like may be applied on the surface.
[0057]
Further, the base paper for resin-coated paper is preferably one having good surface smoothness such as being compressed by applying pressure with a calender during or after paper making, and the smoothness of Beck measured by JIS-P-8119 Is more preferably 200 seconds or longer. The basis weight is 30 to 250 g / m.²Is preferred.
[0058]
The whiteness of the base paper for resin-coated paper is high when the Hunter whiteness measured according to JIS-P-8123 is 65% or more, and a high-quality recording material can be obtained. The degree is different, and brown base paper using unbleached pulp as natural pulp may be used in combination. Moreover, you may use the base paper colored using colorants, such as dye.
[0059]
As the coating resin for resin-coated paper, a polyolefin resin is preferable, and a polyethylene resin is particularly preferable. Also, low density polyethylene, medium density polyethylene, high density polyethylene or mixtures thereof can be used. Here, the low density polyethylene means a density of 0.915 to 0.930 g / cm.^ThreeIt is usually manufactured by a high pressure method. On the other hand, high density polyethylene has a density of 0.950 g / cm.^ThreeThese are the above and are usually manufactured by the low pressure method or the medium pressure method. As these polyethylene resins, those having various densities and melt flow rates can be used alone or in admixture of two or more thereof.
[0060]
The configuration of the resin layer of the resin-coated paper may be either a single layer or a multilayer of two or more layers. Also in this case, the above polyolefin resins can be used alone or in admixture of two or more. In addition, each of the multiple layers can have different compositions or the same composition. As a method for forming a resin layer composed of multiple layers, either a coextrusion coating method or a sequential coating method may be employed.
[0061]
On the other hand, the resin layer of the resin-coated paper can be formed by coating a latex having a film forming ability. For example, it can be formed by coating a latex having a low minimum film formation temperature (MFT) on a base paper for resin-coated paper and then heating it to a temperature equal to or higher than the minimum film formation temperature.
[0062]
Although there is no restriction | limiting in particular as the thickness of the coating resin layer of resin-coated paper, Generally, it coats only on the surface by the thickness of 5-50 micrometers, or both front and back.
[0063]
In the resin of the resin-coated paper, white pigments such as titanium oxide, zinc oxide, talc and calcium carbonate, fatty acid amides such as stearic acid amide and arachidic acid amide, zinc stearate, calcium stearate, aluminum stearate, magnesium stearate Fatty acid metal salts such as Irganox 1010, Irganox 1076 and other antioxidants, blue pigments and dyes such as cobalt blue, ultramarine blue, cecilian blue and phthalocyanine blue, and magenta pigments such as cobalt violet, fast violet and manganese purple And various additives such as dyes, fluorescent brighteners and ultraviolet absorbers can be added in appropriate combinations.
[0064]
The resin-coated paper used as a support in the present invention is produced by a so-called extrusion coating method in which a heated and melted polyolefin resin is cast on a traveling base paper. In order to improve the adhesion between the resin and the base paper, the base paper is preferably subjected to an activation treatment such as corona discharge treatment or flame treatment before the resin is coated on the base paper. The surface (surface) to which the ink receiving layer of the support is applied has a glossy surface, a matte surface, etc., depending on the application, and a glossy surface is particularly preferably used. Although it is not always necessary to coat the resin on the back surface, it is preferable to coat the resin from the viewpoint of curling prevention. The back surface is usually a matte surface, and an active treatment such as corona discharge treatment or flame treatment can be applied to the front surface or both the front and back surfaces as required.
[0065]
The present invention also relates to a highly transparent ink-jet recording material that can be used as an OHP film. However, even in a recording material that requires translucency such as an OHP film, the composition of the ink absorption layer alone is used. Also, the properties of the support are important. As for the light transmittance when used as an OHP film, the haze (cloudiness value) is closer to the human sense than the total light transmittance, and the ink absorbing layer of the present invention is formed according to JIS-K-7105. A transparent support having a (cloud value) of 3.0 or less is particularly preferred.
[0066]
Further, the haze of the ink jet recording material when used as an OHP film is the haze according to JIS-K-7105 of the ink jet recording material in which the ink absorbing layer is provided on the support. The haze value is particularly preferably 10.0 or less.
[0067]
The haze (haze value) is determined by JIS-K-7105 to measure the diffuse transmittance and the total light transmittance using an integrating sphere type light transmittance measuring device, and to express the haze. .
[0068]
In a recording material that requires translucency such as an OHP film, the thickness of the support to be used is not particularly limited, but is preferably about 50 to 200 μm from the viewpoint of handling properties and printer paper passing suitability.
[0069]
In the case of producing an inkjet recording material in the present invention, good coating properties can often be obtained without adding a surfactant. However, in order to further improve coating properties, or the ink is an ink. A surfactant can be added for the purpose of adjusting the dot diameter when adhering to the absorbent layer. The surfactant to be used is preferably nonionic, but may be selected from any of anionic, cationic, nonionic, and betaine types as required. It may be. One or two or more surfactants may be used in combination. The addition amount of the surfactant is preferably 0.001 to 5 parts by weight, more preferably 0.01 to 3 parts by weight with respect to 100 parts by weight of the alumina hydrate constituting the ink absorption layer in solid content.
[0070]
In addition to the above surfactants, the ink absorption layer includes inorganic pigments, colored dyes, colored pigments, ink dye fixing agents, ultraviolet absorbers, antioxidants, pigment dispersants, antifoaming agents, and leveling. Various known additives such as an agent, an antiseptic, a fluorescent brightener, a viscosity stabilizer, and a pH adjuster can also be added.
[0071]
Also, in order to improve the resolution of the image, if it does not cause aggregation when mixed with an alumina hydrate dispersion, the ink absorbing layer may be a fluororesin, silicone resin or alkyl ketene dimer. By containing a water repellent or sizing agent, the print dot diameter can be controlled and the resolution of the image can be improved. As these fluororesin-based, silicone resin-based, or alkyl ketene dimer-based water repellents or sizing agents, commercially available ones can be used. In addition, either of these solutions or aqueous emulsions can be used. The print dot diameter can be controlled by the amount of these water repellents added to the ink absorbing layer. The amount of addition varies depending on each component, concentration and desired print dot diameter, but is usually 0.05 to 10% by weight, particularly preferably 0.1 to 5% by weight, based on the total solid content of the ink absorbing layer as an effective solid component. %.
[0072]
As a method for applying the ink absorbing layer coating liquid in the present invention, for example, a commonly used application method such as a slide hopper method, a curtain method, an extrusion method, an air knife method, a roll coating method, a rod bar coating method or the like is used. .
[0073]
The support in the present invention may be provided with an anchor layer for the purpose of improving the adhesion between the ink receiving layer and the support. A hydrophilic binder such as gelatin, a solvent-soluble binder such as butyral, latex, a curing agent, a pigment, a surfactant, and the like can be added to the anchor layer in an appropriate combination.
[0074]
Various back coat layers can be coated on the support in the present invention for antistatic properties, transport properties, curl prevention properties, writing properties, gluing properties, and the like. An inorganic antistatic agent, an organic antistatic agent, a hydrophilic binder, latex, a curing agent, a pigment, a lubricant, a surfactant, and the like can be added in appropriate combination to the backcoat layer.
[0075]
【Example】
EXAMPLES Hereinafter, although an Example demonstrates this invention in detail, the content of this invention is not limited to an Example.
[0076]
(Synthesis example of alumina hydrate)
The synthesis example of the alumina hydrate used for an ink absorption layer is shown below. All raw materials used were commercial products, and were used as they were without further purification.
[0077]
Ion-exchanged water 1200 g and isopropyl alcohol 900 g were charged into a 3 L reactor and heated to 75 ° C. 408 g of aluminum isopropoxide was added, and hydrolysis was performed at 75 ° C. for 24 hours and at 95 ° C. for 4 hours. Thereafter, 24 g of acetic acid was added, and the mixture was stirred at 75 ° C. for 48 hours, and then concentrated so that the total amount became 800 g to obtain a white alumina hydrate dispersion.
[0078]
When this sol was dried at room temperature and measured for X-ray diffraction, it showed a pseudo-boehmite structure. Moreover, when the average particle diameter was measured with the transmission electron microscope, it was 40 nm and the aspect-ratio was 6. Further, when the BET specific surface area, the average pore radius, and the pore volume were measured by a nitrogen adsorption / desorption method, 90 m²/ G, 6.2 nm, and 0.58 ml / g.
[0079]
(Preparation of inkjet recording material)
Although the example of preparation of the ink jet recording material according to the present invention is shown below, the present invention is not limited thereto.
[0080]
Example 1
2 g of chitosan was added to a mixture of 96 g of ion-exchanged water and 2 g of acetic acid, and the mixture was stirred at 50 ° C. to obtain a 2% aqueous solution of chitosan. When the viscosity of this 2% aqueous solution of chitosan at 20 ° C. was measured with a B-type viscometer, it was 980 cps. After adding 75 g of the 2% aqueous solution of chitosan to 100 g of the alumina hydrate dispersion prepared in the synthesis example and corona-treating the surface of the resin-coated paper described below, the weight after drying on the surface of the resin-coated paper is 20 g. / M²It was applied and dried to obtain an ink jet recording material. As a result, it was possible to obtain an ink jet recording material having good surface quality in which no cracks were observed in the coating film. The 60-degree specular gloss (Gs) of this inkjet recording material was measured by the method of JIS-Z-8741 and found to be Gs (60 °) = 51.5.
[0081]
(Production of resin-coated paper)
Basis weight 100g / m made of LBKP²25 g / m of a resin composition comprising 85 parts by weight of low density polyethylene and 15 parts by weight of titanium dioxide on the surface of the base paper.²The resin composition consisting of 50 parts by weight of high-density polyethylene and 50 parts by weight of low-density polyethylene is applied to the back surface at 20 g / m.²Application was made to produce a resin-coated paper. When the Hunter whiteness of this resin-coated paper was measured according to JIS-P-8123, it was 82%.
[0082]
Example 2
Instead of the resin-coated paper in Example 1, a white polyester film (U2, manufactured by Teijin) whose whiteness was increased by containing barium sulfate in the film was used in the same manner as in Example 1 for inkjet. A recording material was obtained. As a result, it was possible to obtain an ink jet recording material having good surface quality in which no cracks were observed in the coating film. The 60-degree specular gloss (Gs) of the ink jet recording material was measured by the method of JIS-Z-8741 and found to be Gs (60 °) = 58.1.
[0083]
Example 3
2 g of methylcellulose (Cesca MC-400, manufactured by Daiichi Kogyo Seiyaku), which is a nonionic cellulose ether, was dissolved in 98 g of ion-exchanged water to obtain a 2% aqueous solution of methylcellulose. The viscosity at 20 ° C. of a 2% aqueous solution of methylcellulose was measured with a B-type viscometer and found to be 410 cps. 75 g of the 2% aqueous solution of methylcellulose was added to 100 g of the alumina hydrate dispersion prepared in the synthesis example, and the surface of the resin-coated paper described in Example 1 was subjected to corona treatment, and then the surface of the resin-coated paper was dried. Weight is 20g / m²It was applied and dried to obtain an ink jet recording material. As a result, it was possible to obtain an ink jet recording material having good surface quality in which no cracks were observed in the coating film. The 60-degree specular gloss (Gs) of the ink jet recording material was measured by the method of JIS-Z-8741 and found to be Gs (60 °) = 48.9.
[0084]
Example 4
Instead of the resin-coated paper in Example 3, a white polyester film (U2, manufactured by Teijin) whose whiteness was increased by containing barium sulfate in the film was used in the same manner as in Example 3 for inkjet. A recording material was obtained. As a result, it was possible to obtain an ink jet recording material having good surface quality in which no cracks were observed in the coating film. The 60-degree specular gloss (Gs) of the ink jet recording material was measured by the method of JIS-Z-8741 and found to be Gs (60 °) = 56.1.
[0085]
Example 5
10 g of polyvinyl alcohol (PVA-124, manufactured by Kuraray) was added to 90 g of ion-exchanged water, and the mixture was stirred at 80 ° C. to obtain a 10% aqueous solution of polyvinyl alcohol. The viscosity at 20 ° C. of a 10% aqueous solution of polyvinyl alcohol was measured with a B-type viscometer and found to be 3700 cps. Further, a 10% aqueous solution of this polyvinyl alcohol was diluted with ion-exchanged water until it became a 2% aqueous solution, and the viscosity at 20 ° C. was measured with a B-type viscometer, resulting in 13 cps. To 100 g of the alumina hydrate dispersion prepared in Synthesis Example, 8 g of the 10% aqueous polyvinyl alcohol solution was added, and 35 g of the 2% aqueous chitosan solution described in Example 1 was added and mixed well. After the corona treatment on the surface of the resin-coated paper, the weight after drying on the surface of the resin-coated paper is 30 g / m²It was applied and dried to obtain an ink jet recording material. As a result, it was possible to obtain an ink jet recording material having good surface quality in which no cracks were observed in the coating film. The 60-degree specular gloss (Gs) of the ink jet recording material was measured by the method of JIS-Z-8741 and found to be Gs (60 °) = 46.9.
[0086]
Example 6
In 98 g of ion-exchanged water, 2 g of methylhydroxyethylcellulose (Cesca MHEC-6000PR, manufactured by Daiichi Kogyo Seiyaku), which is a nonionic cellulose ether, was dissolved to obtain a 2% aqueous solution of methylhydroxyethylcellulose. The viscosity of this 2% aqueous solution of methyl hydroxyethyl cellulose at 20 ° C. was measured with a B-type viscometer, and it was 5800 cps. An ink jet recording material was obtained in the same manner as in Example 5 except that the 2% aqueous solution of methyl hydroxyethyl cellulose was used instead of the 2% aqueous solution of chitosan in Example 5. As a result, it was possible to obtain an ink jet recording material having good surface quality in which no cracks were observed in the coating film. When the 60-degree specular gloss (Gs) of this inkjet recording material was measured by the method of JIS-Z-8741, it was Gs (60 °) = 50.2.
[0087]
Example 7
Instead of the resin-coated paper in Example 1, a transparent polyester film (Lumirror 125T, manufactured by Toray Industries, Inc.) having a haze (cloudiness value) of 2.19 according to JIS-K-7105 was used, and corona was used. An ink jet recording material was obtained in the same manner as in Example 1 except that the treatment was not performed. As a result, it was possible to obtain an ink jet recording material having good surface quality in which no cracks were observed in the coating film. The haze (cloudiness value) of this ink-jet recording material according to JIS-K-7105 was 7.7.
[0088]
Example 8
Instead of the resin-coated paper in Example 5, a transparent polyester film (Lumirror 125T, manufactured by Toray Industries, Inc.) having a haze (cloudiness value) of 2.19 according to JIS-K-7105 and subjected to surface easy adhesion treatment was used. An ink jet recording material was obtained in the same manner as in Example 5 except that the treatment was not performed. As a result, it was possible to obtain an ink jet recording material having good surface quality in which no cracks were observed in the coating film. The ink-jet recording material had a haze (haze value) of 8.5 according to JIS-K-7105.
[0089]
Comparative Example 1
Instead of 75 g of a 2% aqueous solution of chitosan in Example 1,5An ink-jet recording material was prepared in the same manner as in Example 1 except that 15 g of a 10% aqueous solution of polyvinyl alcohol described above was used, and cracks (cracks at intervals of about 5 mm) occurred on the entire surface of the coating film when dried. An inkjet recording material having good surface quality could not be obtained.
[0090]
Comparative Example 2
2 g of methyl cellulose (Cesca MC-25S, manufactured by Daiichi Kogyo Seiyaku), which is a nonionic cellulose ether, was dissolved in 98 g of ion-exchanged water to obtain a 2% aqueous solution of methyl cellulose. The viscosity at 20 ° C. of a 2% aqueous solution of methylcellulose was measured with a B-type viscometer and found to be 20 cps. An ink jet recording material was prepared in the same manner as in Example 1 except that the 2% aqueous solution of methylcellulose was used in place of the 2% aqueous solution of chitosan in Example 1. Cracks at intervals of 5 mm) occurred, and it was impossible to obtain an ink jet recording material having good surface quality.
[0091]
Comparative Example 3
2 g of low molecular weight chitosan (chitosan VL, manufactured by Dainichi Seika Kogyo) was dissolved in 98 g of ion-exchanged water to obtain a 2% aqueous solution of chitosan. When the viscosity of this 2% aqueous solution of chitosan at 20 ° C. was measured with a B-type viscometer, it was 24 cps. An ink jet recording material was produced in the same manner as in Example 1 except that the 2% aqueous solution of chitosan (viscosity 980 cps) in Example 1 was used instead of the 2% aqueous solution of chitosan (viscosity 24 cps). Occasionally, cracks (cracks at intervals of about 5 mm) occurred on the entire surface of the coating film, and it was impossible to obtain an ink jet recording material having good surface quality.
[0092]
(Evaluation)
Printing was performed on the ink jet recording materials obtained in Examples 1 to 8 using a Canon full color ink jet printer BJC-600J. Evaluation was performed by the following methods (Tests 1 to 4), and the results are shown in Table 1. The inkjet recording materials obtained in Comparative Examples 1 to 3 were not printed because the coating film was cracked on the entire surface.
[0093]
(Test 1) Uniformity of solid part: The two-colored solid printed part was visually observed to determine unevenness of the printed part. As a result, no unevenness was observed in any of the inkjet recording materials obtained in Examples 1 to 8.
[0094]
(Test 2) Image density: Using a Macbeth densitometer TR-1224, the optical density of a solid print part (black ink recording part) after 15 minutes from printing was measured. In addition, the optical density of the solid printing part of the inkjet recording material obtained in Examples 1-6 was measured by reflection, and the optical density of the solid printing part of the inkjet recording material obtained in Examples 7-8. Was measured by transmission.
[0095]
(Test 3) Water resistance (image remaining rate): The optical density of the solid print portion (black ink recording portion) after being dipped in running water for 5 minutes and measured after drying was measured in the same manner as in (Test 2). Compared with the initial density measured in (Test 2), the image residual ratio was calculated by the equation (1).
[0096]
[Expression 1]
A (%) = (B / C) × 100
A: Image remaining rate (unit:%)
B: Optical density of the solid printed part measured in (Test 3)
C: Optical density of the solid printed part measured in (Test 2)
[0097]
(Test 4) Water resistance (immersion rate): A thin line of 1 pixel pitch of magenta was printed and the line width was measured. The line width after immersion in ion exchange water at 25 ° C. for 6 hours was measured, and the value calculated by the formula 2 was taken as the water bleed rate. If the water bleed rate is 150% or less compared to the initial line width, the water resistance is not a problem in practice, and if it is 120% or less, it is hardly recognized visually.
[0098]
[Expression 2]
D (%) = (E / F) × 100
D: Bleeding rate (unit%)
E: Line width after water resistance test (unit: μm)
F: Line width before water resistance test (unit: μm)
[0099]
[Table 1]

[0100]
【The invention's effect】
As apparent from the examples, it was possible to provide an ink jet recording material having an ink absorbing layer containing alumina hydrate and a water-soluble binder while suppressing the occurrence of cracks in the ink absorbing layer during coating and drying. . In particular, it was possible to provide an ink jet recording material having high photographic gloss that is highly demanded in color recording, and a highly transparent ink jet recording material that can be used as an OHP film.

Claims (2)

In an inkjet recording material having an ink absorbing layer provided on a support, the ink absorbing layer is an ink absorbing layer containing alumina hydrate and chitosan , and the viscosity of a 2% by weight aqueous solution of chitosan is: A recording material for ink jet, which is 200 cps or more and 10,000 cps or less at 20 ° C. In an inkjet recording material having an ink absorption layer provided on a support, the ink absorption layer is an ink absorption layer containing alumina hydrate and nonionic cellulose ether, and 2 of the nonionic cellulose ether. A recording material for ink-jet recording, wherein the viscosity of a weight% aqueous solution is 200 cps or more and 10,000 cps or less at 20 ° C.