JP3934561B2 - Inkjet recording medium and postcard using the same - Google Patents

Description

【００４８】
表１から明らかなように、本発明の実施例１〜６では、エンボス性、不透明性がともに優れていることが実証された。又、実施例１〜６では、引張強度、白紙光沢度、寸法安定性も基準を満たしていた。一方、ろ水度が３８０ｍｌＣ．Ｓ．Ｆ．より高い比較例１の場合、エンボス性が悪化した。このようなことから、支持体の紙のろ水度を２００〜３８０ｍｌＣ．Ｓ．Ｆ．とすることが必要なことがわかる。
【００４９】
また、内添填料として二酸化チタンを含まない比較例３の場合は、不透明度が９８％未満となり不透明性が悪化し、全内添填料の灰分が１５重量％を超えた比較例２の場合は、エンボス性が悪化した。このようなことから、支持体の全内添填料の灰分を１５重量％以下とし、そのうち二酸化チタンの灰分を４重量％以上とすることが必要なことがわかる。なお、比較例４では、ろ水度が４００ｍｌＣ．Ｓ．Ｆ．と高く、支持体の引張強度も低いが、そもそも白紙光沢度が著しく低いため、エンボス状の浮き出しが目立たず、見かけ上エンボス性が優れているように見える。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ink jet recording medium and a postcard using the ink jet recording medium, and more particularly to an ink jet recording medium suitable for performing relief printing on a surface opposite to the surface on the ink jet recording layer side having high glossiness, such as a postcard with a lottery. Regarding the postcards used.
[0002]
[Prior art]
Inkjet recording is a method in which dots are formed by ejecting small droplets of ink by various mechanisms and adhering them onto recording paper, but there is no noise compared to dot impact type recording methods. In addition, there are advantages such as easy full color and high-speed printing.
[0003]
The characteristics required for the ink jet recording medium used in this ink jet recording method are that the ink drying speed is high, the print density is high, there is no ink overflow or bleeding, and the paper is absorbed by absorbing ink. Is not wavy. As a technique that satisfies these characteristics and further improves the glossiness of recording paper, a technique using a cast coating method has been reported (for example, see Patent Documents 1 to 3).
[0004]
[Patent Document 1]
JP-A-5-59694 (2nd page)
[Patent Document 2]
JP-A-6-55829 (2nd page)
[Patent Document 3]
Japanese Patent Laid-Open No. 2002-283597 (page 2)
[0005]
Here, the cast coating method is a method for gloss-finishing the surface of the recording layer by pressing a heated mirror drum against the recording layer in a wet state. By performing such a glossy finish, it is possible to impart glossiness similar to that of a silver salt photograph to the ink jet recording surface. As a result, high-quality inkjet recording images can be obtained, and inkjet recording methods are becoming widespread for various uses.
[0006]
[Problems to be solved by the invention]
However, when the above glossy inkjet recording medium is used for a postcard or the like, the following new problem appears. The first problem is that when the glossy surface (inkjet recording surface) is a communication surface (text surface), characters and the like written on the opposite address surface are transmitted to the glossy surface. Secondly, in the case of postcards with lottery numbers such as New Year's cards, the lottery number in the lower column of the address side is printed by letterpress printing, so that the printed part is embossed on the glossy surface which is the opposite side. These problems are prominent due to the glossiness of the inkjet recording surface.
Accordingly, an object of the present invention is to provide an ink jet recording medium that has high glossiness, low transparency, and in which unevenness on the opposite surface is difficult to be raised on the surface on the ink jet recording layer side, and a postcard using the same.
[0007]
[Means for Solving the Problems]
As a result of various studies to solve the above-mentioned problems, the present inventors have found that the problem can be solved by using a low freeness pulp for the support and defining the type and ash content of the internal filler. It was.
Accordingly, the object of the present invention is to provide a recording layer containing a pigment and a binder on at least one surface of a gas-permeable support, and while the recording layer is in a wet state, the recording layer Is an ink jet recording medium in which a gloss is imparted to the surface of the recording layer by press-bonding to a heated mirror-finished surface, and the support has a freeness of 200 to 380 ml C.I. S. F. And the ash content of the total internal filler in the support is 15% by weight or less, and at least the ash content of titanium dioxide is 4% by weight or more and 7.3% by weight or less . This was achieved by an ink jet recording medium characterized in that the recording layer had a 20 ° specular gloss of 15% or more, low transparency and excellent embossability.
In particular, when the recording layer is a recording layer containing alumina and polyvinyl alcohol, high glossiness can be imparted. Furthermore, higher gloss when recording layer is imparted a gloss by coagulation cast coating method is obtained.
The above object has also been achieved by a postcard using the ink jet recording medium of the present invention.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be specifically described below. As the support used in the present invention, a papermaking papermaking pulp is used. Any type of pulp can be used as the paper pulp, but chemical pulp (such as softwood bleached or unbleached kraft pulp, hardwood bleached or unbleached kraft pulp), mechanical pulp (grand pulp, thermomechanical pulp, chemi Thermomechanical pulp, etc.), deinked pulp, etc. can be used. Further, these various pulps can be used alone or mixed at an arbitrary ratio. Then, the pulp may be made by a known method. In addition, the pH of the obtained support (paper) may be any of acidic, neutral, and alkaline.
[0009]
Here, it is necessary that the support has air permeability. The Oken air permeability determined by 5-2 is preferably 100 seconds or less. A low air permeability (air resistance) is preferable because drying after application of the recording layer is accelerated and the production efficiency of the ink jet recording paper is increased.
[0010]
Next, by defining the freeness of the pulp and the internal filler as follows, the back surface of the ink jet recording medium can be transmitted through the glossy surface, and the back surface irregularities can be embossed on the glossy surface. It becomes possible to solve the problem.
[0011]
First, the freeness of the pulp as the material of the support is 200 to 380 ml C.I. S. F. (It is necessary to be a value (Canadian standard freeness) by a Canadian standard freeness tester specified in JIS K8121). This is because the freeness is 380 ml C.I. S. F. Is not sufficient paper strength to suppress the embossed embossing described above, and the freeness is 200 mlC. S. F. This is because the dimensional stability of the support is lowered and the permeability is increased. More preferably, the freeness is 250 to 350 ml C.I. S. F. It is good to do.
[0012]
Furthermore, it is necessary that at least titanium dioxide ash is 4% by weight or more of the internal filler in the support. This is because when the ash content of titanium dioxide is less than 4% by weight, the permeability becomes high. Here, in the present invention, various known fillers other than titanium dioxide can be contained in the support, but it is necessary that the ash content of the total internal filler in the support is 15% by weight or less. This is because if the ash content of the total internal filler exceeds 15% by weight, the strength of the support is lowered, and the embossed relief described above becomes prominent.
[0013]
As the known filler, hydrated silicic acid, white carbon, talc, kaolin, clay, calcium carbonate, synthetic resin filler and the like can be appropriately selected and used alone or in combination. When using multiple types of fillers, the ash content of titanium dioxide can be measured by performing elemental analysis on the ash content obtained by ash content measurement by the fluorescent X-ray method or the X-ray diffraction method. Further, only titanium dioxide may be used as an internal filler for the support. In this case, too, the ash content is 15% by weight or less.
[0014]
The recording layer in the ink jet recording medium of the present invention contains a pigment and a binder. The pigment can be appropriately selected from known pigments. Specific examples include silica, alumina, aluminum hydroxide, kaolin, talc, calcium carbonate, titanium dioxide, clay, zinc oxide and the like, and these may be used alone or in combination. Of these, alumina is an oxide of aluminum obtained by firing aluminum hydroxide or the like, and has an effect of improving the gloss of the recording layer. Many crystal forms of alumina are known, and examples include α-alumina, β-alumina, γ-alumina, and the like, but it is preferable to use γ-alumina from the viewpoint of further improving the gloss of the recording layer. . The particle diameter and BET specific surface area of alumina can be appropriately selected as necessary, but the average particle diameter (measured by laser diffraction method) is 1.0 to 4.0 μm in order to improve the glossiness of the recording layer. It is preferable to use alumina of 1.5 to 3.3 μm.
[0015]
Any binder can be used as long as it is a polymer compound capable of forming a film. Specifically, completely saponified or partially saponified polyvinyl alcohol, carboxylic acid-modified polyvinyl alcohol, silyl-modified polyvinyl alcohol, acetoacetyl group-modified polyvinyl alcohol, polyvinyl acetal resin, oxidized starch, starch such as esterified starch, carboxymethyl cellulose, Cellulose derivatives such as hydroxyethyl cellulose, polyvinylpyrrolidone, casein, gelatin, soy protein, styrene-acrylic resin and its derivatives, styrene-butadiene latex, acrylic emulsion, vinyl acetate emulsion, vinyl chloride emulsion, urethane emulsion, urea emulsion, alkyd emulsion and These derivatives or the like may be used alone or in combination. In the present invention, it is preferable to use polyvinyl alcohol (including a modified product) in terms of reducing the transparency of the recording layer and imparting glossiness similar to that of a silver salt photograph.
[0016]
The amount of the binder in the recording layer is not particularly limited as long as the required recording layer strength can be obtained, but is preferably 5 to 30 parts by weight with respect to 100 parts by weight of the pigment. More preferably, it is 20 parts by weight or less. If the blending amount of the binder is small, the strength of the recording layer tends to decrease, and if the blending amount is large, the ink absorbability tends to decrease. In addition, when polyvinyl alcohol is blended in the binder, if the blending amount is small, the white paper gloss (the gloss of the recording layer before ink jet printing) tends not to improve, so the polyvinyl alcohol in the binder component is 30 wt. % Or more, and more preferably 50% by weight or more.
[0017]
Next, in the present invention, a recording layer comprising a pigment and a binder is provided on the support, and the recording layer is pressed against a heated mirror-finished surface and dried while the recording layer is in a wet state. Thus, gloss is imparted to the surface of the recording layer. This processing method is called a cast coating method. Specifically, a heated drum having a mirror-finished cylindrical outer surface is brought into pressure contact with a wet coating layer provided on the surface of the base paper to gloss the paper surface. Wet coating method that finishes into a shape, coagulation (gelation) cast coating method, which will be described later, and a wet coating layer provided on the surface of the base paper is once dried and then plasticized by applying a rewetting liquid There is a rewet cast coating method in which the drum is pressed against the coated layer to finish the paper surface glossy, and any method may be used.
[0018]
In particular, in the present invention, it is preferable to use a coagulation cast coating method. In this method, a processing liquid capable of coagulating (gelling) the binder in the recording layer is applied to the recording layer, and then heated on the mirror-finished surface (the drum) while the recording layer is in a wet state. The recording layer is pressure-bonded via a press roll and dried to give gloss to the surface of the recording layer (see, for example, Paper Pulp Technology Handbook (issued February 15, 1989, edited by the Paper Pulp Technology Association)) . Furthermore, it is preferable that the recording layer is in a wet state when the treatment liquid is applied to the recording layer. In this way, the mirror-finished surface of the drum is easily transferred to the recording layer, and minute irregularities on the surface of the recording layer can be reduced.
[0019]
Moreover, when using polyvinyl alcohol as a binder when using the coagulation cast coating method, boric acid and a borate can be used as a processing liquid which has the function to coagulate this, for example. However, since the following problems may occur when borate or boric acid is used alone, it is preferable to use a treatment liquid in which borate and boric acid are mixed.
[0020]
In other words, when borate is used alone, the coagulation action of borate and polyvinyl alcohol in the recording layer is strong, so the recording layer becomes hard, and transfer to the recording layer on the mirror-finished surface of the drum cannot be performed sufficiently. It may be difficult to obtain a good glossy surface. On the other hand, when boric acid is used alone, since the coagulation action between boric acid and polyvinyl alcohol in the recording layer is not sufficient, the softly solidified recording layer may adhere to the roll on which the treatment liquid is applied to the recording layer. And the recording layer is unlikely to be in a good solidified state. In this case, even if an attempt is made to increase the boric acid concentration in the processing liquid to increase the coagulation action of polyvinyl alcohol, the boric acid concentration in the processing liquid has an upper limit because the solubility of boric acid is low. It is difficult to solidify.
[0021]
From the above, by using a mixture of borate and boric acid, it becomes easy to adjust the solidified state of polyvinyl alcohol, and an ink jet recording medium having good gloss can be obtained. The mixing ratio of borate and boric acid in the treatment liquid is preferably between borate / boric acid = 1/4 to 2/1 as a weight ratio after conversion to anhydride. When the blending ratio of borate and boric acid is less than 1/4, the proportion of boric acid is too high, and the polyvinyl alcohol in the recording layer is insufficiently solidified, and the softly solidified recording layer adheres to the treatment liquid coating roll, The recording layer may not be in a good wet state. On the other hand, when the mixing ratio exceeds 2/1, the polyvinyl alcohol in the recording layer is too hard and solidified, and the recording layer becomes hard, so that the transfer to the recording layer of the mirror finished surface of the drum cannot be sufficiently performed. It is difficult to obtain a good glossy surface.
[0022]
Examples of the borate used in the present invention include borax, orthoborate, diborate, metaborate, pentaborate, and octaborate. In addition, although borate is not specifically limited to these, From a viewpoint of cost, availability, etc., it is preferable to use borax. The concentration of borate and boric acid in the treatment liquid can be adjusted as necessary, but the total concentration of borate and boric acid in the treatment liquid is in the range of 1 to 8% by weight in terms of anhydride. It is preferable. If the concentration of borate and boric acid, especially the concentration of borate is too high, the solidification of polyvinyl alcohol tends to be too strong and the glossiness of blank paper tends to decrease. Further, when the concentration of boric acid is high, boric acid is likely to be precipitated in the treatment liquid, so that the stability of the treatment liquid is deteriorated.
[0023]
A release agent can be added to the recording layer coating liquid and the treatment liquid as necessary. The melting point of the release agent to be added is preferably 90 to 150 ° C, and particularly preferably 95 to 120 ° C. If it is said range, since melting | fusing point of a release agent is substantially equivalent to the surface temperature of the mirror-finishing surface of a drum, the capability as a release agent is exhibited to the maximum. The release agent is not particularly limited as long as it has the above characteristics.
[0024]
In addition, the recording layer coating liquid and processing liquid used in the present invention are pigment dispersants, water retention agents, thickeners, antifoaming agents, antiseptics, colorants, water resistances to the extent that the effects of the present invention are not impaired. An agent, a wetting agent, a fluorescent dye, an ultraviolet absorber, a cationic polymer electrolyte, and the like can be appropriately added.
[0025]
And, a method of providing a recording layer on the support is known coating methods such as blade coater, air knife coater, roll coater, brush coater, kiss coater, squeeze coater, curtain coater, die coater, bar coater, gravure coater, comma coater, etc. What is necessary is just to select suitably from the methods using a machine. The method for applying the treatment liquid is not particularly limited as long as it can be applied to the recording layer, and can be appropriately selected from known methods (for example, a roll method, a spray method, a curtain method, etc.).
[0026]
The coating amount of the recording layer can be arbitrarily adjusted within the range that covers the surface of the support (base paper) and sufficient ink absorbency is obtained, but the ink absorbency can be increased while increasing the ink jet print density. From the viewpoint of improving, it is preferably 5 to 30 g / m ² in terms of solid content per one surface, and particularly preferably 10 to 25 g / m ² in consideration of productivity. If it exceeds 30 g / m ² , the peelability from the mirror drum is lowered, and there may be a problem that the coated recording layer adheres to the mirror drum. In particular, when ink absorbability is required as an ink jet recording medium, it is necessary to increase the coating amount of the recording layer. In this case, an undercoat layer may be provided between the support and the recording layer. .
[0027]
As described above, the freeness of the pulp is 200 to 380 ml C.I. S. F. By doing so, fibrillation and shortening of the fiber by beating the pulp fiber are promoted, the strength of the paper is improved, and the embossed relief can be suppressed. Moreover, the said permeability | transmittance can be reduced by containing 4 weight% or more of titanium dioxide as an internal filler of a support body. Furthermore, by setting the total internal filler of the support to 15% by weight or less, the above-described embossed relief can be suppressed without reducing the strength of the support. In particular, in the case of an ink jet recording medium having a recording layer having a high gloss feeling, it is more susceptible to the back surface than the mat type ink jet recording medium having a low gloss feeling, and the above-described transparency and embossed relief are likely to occur. The utility of the present invention is high. Particularly when the 20 ° specular gloss of the recording layer is 15% or more (particularly 20% or more), or when the recording layer contains alumina and polyvinyl alcohol, the gloss of the recording layer is remarkably improved. Since defects tend to occur, the utility of the present invention is great.
[0028]
In addition, the problem that the characters on the back surface are transmitted to the recording layer side surface (glossy surface) of the ink jet recording medium, and the problem that the unevenness of the back surface is embossed on the glossy surface depends on the postcard using the ink jet recording medium. Become prominent. In other words, in the case of a postcard, if the glossy side is the communication side (sentence side), it is necessary to write characters etc. on the address side which is the opposite side, and these letters etc. are transmitted through the glossy side (visible through). In addition, in the case of postcards with lottery numbers such as New Year's cards, the lottery number in the lower column of the address side is printed by letterpress printing, so that the printed part is embossed on the opposite glossy surface. Therefore, the usefulness of the present invention is particularly great in a postcard using an ink jet recording medium.
[0029]
【The invention's effect】
In the present invention, when the recording layer of the support is in a wet state and presses on the mirror-finished surface to give gloss, the freeness and internal filler of the papermaking pulp used for the support are specified. Thus, it is possible to suppress the characters on the back surface from being transmitted to the surface on the recording layer side of the ink jet recording medium and to prevent the unevenness on the back surface from being embossed on the surface on the recording layer side.
[0030]
【Example】
EXAMPLES Hereinafter, although an Example and a comparative example further explain in detail this invention, this invention is not limited by these. Unless otherwise specified, “parts” and “%” described below represent “parts by weight” and “% by weight”, respectively.
[0031]
Example 1.
Beating degree (freeness: unit: ml CSF, the same shall apply hereinafter) 300 ml of hardwood bleached kraft pulp (L-BKP) 100 parts of pulp, and titanium dioxide (FA-50 Furukawa Machine Metal) as an internal filler Using a paper machine from a pulp slurry to which 5.5 parts was added and 1.0 part of aluminum sulfate, 0.1 part of a synthetic sizing agent, and 0.01 part of a yield improver were added. Paper was made to obtain a support. At the same time that starch is applied to both sides of this support with a gate roll device so that the dry coating amount per side is 1.5 g / m ² , on one side (this side becomes a glossy side), The undercoat layer was coated by a blade method so that the dry coating amount of the following coating liquid A was 7 g / m ² . In this way, an ink jet recording medium base paper having a basis weight of 175 g / m ² was obtained.
[0032]
Coating liquid A: 100 parts of synthetic silica (Fine Seal X-37: trade name manufactured by Tokuyama Corporation), 5 parts of SB latex (LX438C: trade name manufactured by Sumitomo Chemical Co., Ltd.), polyvinyl alcohol (PVA 117: Co., Ltd.) 20 parts of Kuraray's trade name) and 5 parts of a sizing agent (Polymarlon 360: trade name of Arakawa Chemical Industries, Ltd.) were blended to prepare a coating solution having a solid content of 20%.
[0033]
On the undercoat layer of the base paper for inkjet recording medium, the following coating liquid B was applied with a roll coater so that the dry coating amount was 20 g / m ^2, and the following was performed while the recording layer was in a wet state. The coagulation liquid C was used for coagulation. Next, the recording layer is pressed onto a mirror drum surface heated to 105 ° C. via a press roll for 20 seconds to copy the mirror surface of the drum, and an ink jet recording with a basis weight of 195 g / m ² with this surface as a glossy surface. A medium was obtained.
[0034]
Coating liquid B: 50 parts of high-purity alumina as a pigment (UA5605: trade name, manufactured by Showa Denko KK, average particle size: 2.8 μm) and high-purity alumina (AKP-G015: trade name, manufactured by Sumitomo Chemical Co., Ltd.) (Particle size 2.2 μm) and 50 parts, 13 parts of partially saponified polyvinyl alcohol (PVA224: trade name of Kuraray Co., Ltd., degree of polymerization 2400, degree of saponification 88.0) as a binder, A coating solution having a solid content concentration of 28% was prepared by blending 0.2 part of an antifoaming agent.
[0035]
Coagulation liquid C: 1.5 parts of borax (anhydride equivalent) in water, 3 parts of boric acid, and 0.2 part of release agent (FL-48C: trade name of Toho Chemical Co., Ltd.) (solid content equivalent) A coagulation liquid having a solid content of 4.7% was prepared by blending.
[0036]
Example 2
An ink jet recording medium was obtained in exactly the same manner as in Example 1 except that a pulp comprising 100 parts of hardwood bleached kraft pulp (L-BKP) having a beating degree of 270 ml was used.
[0037]
Example 3
An ink jet recording medium was obtained in the same manner as in Example 1 except that a pulp consisting of 100 parts of hardwood bleached kraft pulp (L-BKP) having a beating degree of 330 ml was used.
[0038]
Example 4
An ink jet recording medium was obtained in the same manner as in Example 1 except that 11 parts of titanium dioxide was added as an internal filler.
[0039]
Example 5 FIG.
Inkjet recording medium exactly the same as Example 1, except that 5.5 parts of titanium dioxide and 5.5 parts of talc (Katsumiyama Talc 85: trade name manufactured by Katsuyama Mining Co., Ltd.) were added as internal additives. Got.
[0040]
Example 6
An inkjet recording medium was obtained in exactly the same manner as in Example 1 except that a pulp composed of 100 parts of hardwood bleached kraft pulp (L-BKP) having a beating degree of 230 ml was used.
[0041]
Comparative Example 1
An ink jet recording medium was obtained in exactly the same manner as in Example 1 except that pulp comprising 100 parts of hardwood bleached kraft pulp (L-BKP) having a beating degree of 400 ml was used.
[0042]
Comparative Example 2
An ink jet recording medium was obtained in the same manner as in Example 1 except that 25 parts of titanium dioxide was added as an internal filler.
[0043]
Comparative Example 3
An ink jet recording medium was obtained in exactly the same manner as in Example 1 except that 5.5 parts of talc was added as an internal filler.
[0044]
Comparative Example 4
Using a pulp consisting of 100 parts of hardwood bleached kraft pulp (L-BKP) having a beating degree of 400 ml, using 5.5 parts of titanium dioxide as an internal filler, to the mirror drum surface after coagulating the recording layer with the coagulation liquid C An ink jet recording medium was obtained in the same manner as in Example 1 except that the pressure bonding step was omitted and the solidified recording layer was dried with hot air instead.
[0045]
For the ink jet recording media obtained in each of the examples and comparative examples, the freeness of the support, the ash content, the emboss test of the finished recording medium, the ISO opacity, the tensile strength, the blank glossiness, and the dimensional stability were evaluated. The following method was used. The results are summarized in Table 1. In addition, when the evaluation symbol in a table | surface is (double-circle), it can be used without a problem in particular.
[0046]
Freeness The Canadian standard freeness of the support was measured according to the method specified in JIS K8121.
Ash content The ash content of the support was measured according to the method specified in JIS K8003.
Using a relief printing press (manufactured by Prüfbau), visually evaluate the embossed relief on the glossy surface when relief printing of 50 N / mm is applied to the surface opposite to the glossy surface of the recording medium. went.
◎: Embossed embossing is hardly observed ○: Embossed embossing is slightly observed Δ: Embossed embossing is clearly recognized x: ISO opacity CMS-35SPX where embossed embossing is remarkably recognized The ISO opacity was measured according to ISO 2471 using (Murakami Color Research Laboratory Co., Ltd.). If the ISO opacity is 98% or more, the film has sufficient opacity.
Using a tensile strength Tensilon universal testing machine (Orientec Co., Ltd.), prepare a sample by cutting the recording medium into a width of 25 mm and a length of 250 mm, hold both ends of the sample with jigs, and set the gap between the jigs to 180 mm. The tensile strength was measured according to the method of JIS K8113. In addition, what made the advancing direction of the paper machine in a sample the measurement direction was represented as MD, and what made the direction perpendicular to MD the measurement direction was represented as CD.
Blank paper glossiness According to the method of JIS K7105, the 20-degree specular glossiness of the blank paper portion of the glossy surface of the recording medium was measured as the blank paper glossiness. If the glossiness of the blank paper is 15% or more, it can be evaluated that it has glossiness equivalent to that of a silver salt photograph.
Dimensional stability A4 size recording medium sample was kept in a constant temperature and humidity room at 23 ° C. and 50% RH for 4 hours, then the humidity was changed to 85% RH and held for 4 hours, and then returned to 50% RH again. By leaving it to stand for 4 hours, the curled shape of the sample after the moisture absorption and desorption was visually evaluated.
A: Flat state in which almost no curling is observed ○: Slight curling is observed Δ: Curling is clearly recognized x: Curling is remarkably recognized
[Table 1]

[0048]
As is clear from Table 1, in Examples 1 to 6 of the present invention, it was proved that both embossability and opacity were excellent. In Examples 1 to 6, the tensile strength, white paper glossiness, and dimensional stability also satisfied the standards. On the other hand, the freeness is 380 ml C.I. S. F. In the case of higher Comparative Example 1, the embossability deteriorated. Therefore, the freeness of the support paper is 200 to 380 ml C.I. S. F. It is understood that it is necessary to.
[0049]
Moreover, in the case of the comparative example 3 which does not contain titanium dioxide as an internal filler, the opacity is less than 98% and the opacity deteriorates, and in the comparative example 2 where the ash content of the total internal filler exceeds 15% by weight. The embossing property deteriorated. From this, it can be seen that the ash content of the total internal filler of the support must be 15% by weight or less, and the ash content of titanium dioxide needs to be 4% by weight or more. In Comparative Example 4, the freeness was 400 ml C.I. S. F. Although the tensile strength of the support is low, the glossiness of the blank paper is remarkably low in the first place, so that the embossed relief is not conspicuous, and the embossing appearance seems to be excellent.

Claims (4)

A recording layer containing a pigment and a binder is provided on at least one surface of a support having air permeability, and the recording layer is pressed against a heated mirror-finished surface while the recording layer is in a wet state. An ink jet recording medium having gloss on the surface of the recording layer by drying, wherein the support has a freeness of 200 to 380 ml C.I. S. F. And the ash content of the total internal filler in the support is 15% by weight or less, and at least the ash content of titanium dioxide is 4% by weight or more and 7.3% by weight or less . An ink jet recording medium, wherein the recording layer has a 20 ° specular gloss of 15% or more, low transparency and excellent embossability.   2. The ink jet recording medium according to claim 1, wherein the recording layer contains at least alumina and polyvinyl alcohol.   3. The ink jet recording medium according to claim 1, wherein the recording layer is given a gloss by a solidification cast coating method. Postcard characterized by using the ink-jet recording medium according to any of claims 1 to 3.