JP2012177063A - Ink composition for ink-jet recording - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an ink composition for ink-jet recording, which can be fixed to all kinds of printing paper used in markets at high speeds even in the absence of a heating source, and can form images having high image qualities in high fastness.SOLUTION: The ink composition for ink-jet recording, containing (1) silica sol and/or alumina sol, (2) a colorant which is dispersed or dissolved in water, (3) water, and (4) an organic solvent having a boiling point of ≥180°C (760 mmHg) and miscible with water or an alcohol, as main component, is characterized in that (4) contains 2-ethyl-1,3-hexanediol and 1,6-hexanediol.

Description

The present invention relates to an ink composition used for ink jet recording.
The present invention is particularly suitable for high-speed digital printing by an inkjet method.
The present invention relates to an ink composition that provides an image with high density, fast ink fixation, and high resolution.

Inkjet recording technology is used not only for desktop printers for offices and homes, but also for printing on large advertising media, commercial printing such as flyers, invoices, labels and cards, as well as color filters for liquid crystal displays and liquid crystal orientation. The range of applications in the field of industrial electronics, such as membranes and organic EL display batteries, is expanding.
As inks used in inkjet recording, water-based inks, oil-based inks, organic solvent type inks, UV curable inks, and the like are known depending on the application field.
The ink composition for ink jet recording of the present invention relates to an aqueous ink particularly suitable for commercial printing on paper.

Ink suitable for commercial printing requires high image quality and durability comparable to competing electrophotographic technology and offset printed matter. Therefore, a specially designed ink-jet ink is known for the purpose of achieving both special high image quality and durability.
For example, Patent Document 1 discloses a method of using a solid ink obtained by mixing a colorant and a plasticizer with a compound having a melting point of 90 ° C. or less.
Since this ink is solid at room temperature, an image that does not bleed into water can be obtained with a high resolution equivalent to that of a toner image of electrophotographic technology. On the other hand, the ink must be ejected from the nozzles of the inkjet head while the ink is heated and liquefied. Therefore, even if the printer is turned on, there is a drawback that printing cannot be started unless the ink is heated and liquefied.
Patent Document 2 discloses a method in which a colorless ink containing polyallylamine and an anionic dye ink are reacted on paper.
A cationic polymer and an anionic dye cause a chemical reaction on paper to form a chelate compound that is insoluble in water, whereby an image with good water resistance and less blur is obtained. The disadvantage of this method is that, in addition to the YMCB color ink printhead, a cationic polymer printhead is required, which increases the cost. Furthermore, since the water content of the ink is twice that of normal, there is a drawback that paper cockling is likely to occur.
In Patent Document 3, a compound that lowers the dispersibility or solubility of a colorant composed of a dye or pigment in ink is applied as a pretreatment liquid to the surface of paper on which an image is formed, and then the ink is ejected. A method of recording is disclosed. According to this method, as in the example shown in Patent Document 2, an image having good water resistance and less blurring can be obtained, but a process for applying a pretreatment liquid to the surface of a recording material such as paper is necessary and complicated. It becomes. The examples shown in Patent Documents 2 and 3 both require a large hot air drying device for ink drying.
Patent Document 4 discloses a non-aqueous ink mainly composed of a pigment, a pigment dispersion material, and a solvent. Although this ink has almost perfect water resistance, it has a drawback that it penetrates well into a recording material on paper or the like and causes back-through when printed on ordinary copy paper or the like, resulting in low surface image density. For this reason, it is difficult to get through. A specially designed recording material is required.
Patent Document 5 discloses a water-based ink composed of a colorant composed of a dye or a self-dispersing pigment, a specific wetting agent, a penetrating agent, and water. This ink is superior to conventional inks in drying properties for various printing papers. However, since the ink penetrates into the paper, there is a drawback in that the ink tends to pass through and the surface image density is lowered.
JP 2006-283020 A JP-A-8-20720 JP-A-2002-79739 JP 2006-831312 A Japanese Patent No. 3350117

Conventional ink-jet inks and their recording methods including Patent Documents 1, 2, 3, 4, and 5 have advantages and disadvantages, and are widely used on the market such as offset printing paper and copy paper, that is, a wide range of paper. Ink that has high image density and no bleeding, has complete water resistance, friction resistance and marker resistance (characteristic that does not cause color bleeding even when traced with a marker, etc.), and dries at high speed Is not known.
Recently, there has been an increasing demand for digital printing by ink jet, and several types of high-speed printing apparatuses have already been put into practical use. In the case of invoice printing or the like, the invoice items and the like are printed in advance by offset printing, and only the numeric part is often printed by inkjet. Since the paper used here is a conventional offset printing paper, if water-based ink is used for inkjet, it cannot be fixed at high speed. For this reason, in many cases, it is indispensable to use hot air drying or a heated fixing roller, and there are disadvantages that lead to an increase in size of the apparatus and inefficiency in energy consumption.
The present invention that provides ink suitable for digital printing by inkjet uses a fixing method that uses a heat source particularly for offset printing paper, gravure printing paper, electrophotographic printing paper, or inkjet printing paper used in the market. An object of the present invention is to provide an image that can fix ink at high speed at room temperature, and has high image quality, water resistance, friction resistance, and marker resistance.

According to the present invention, (1) silica sol and / or alumina sol, (2) a colorant that is dispersed or dissolved in water, (3) water, and (4) a boiling point of 180 ° C. (760 mmHg) or higher, water or In the inkjet ink or other composition mainly composed of an organic solvent miscible with alcohol, the above (4) contains 2 ethyl-1,3-hexanediol and 1.6-hexanediol. It is characterized by.
Another preferable solvent component of (4) is diethylene glycol monobutyl ether or triethylene glycol monobutyl ether. As other solvent components, alcohols, glycols, esters, amines, and ketones are used. If necessary, a polymer soluble in these solvents can be used as a binder.
The first essential component of the present invention is silica sol or alumina sol. Each may be used alone or in combination. There are various types of silica sols in which ultrafine particles of silicic anhydride are dispersed in water or an organic solvent as a colloidal solution. The silica sol used in the present invention can be either dispersed in water or dispersed in an organic solvent, but an organic solvent dispersed type having a relatively low viscosity is particularly preferably used.
Alumina sol is commercially available in which alumina hydrate (boehmite) colloidal fine particles are dispersed in water using anions such as chlorine, acetic acid and nitric acid as stabilizers. Both silica sol and alumina sol have good compatibility with various organic solvents such as water and alcohol, and can be stably mixed at an arbitrary ratio.
The presence of the silica sol or the alumina sol improves the penetration of the colorant dissolved in water or an organic solvent into the paper, so that a large amount of coloring material remains on the surface of the paper and an image having a high image density is obtained.
As an example of a commercial item, SNOWTEX IPA-ST, SNOWTEX EG-ST, SNOWTEX NPC-ST, Alumina sol 100, Alumina sol 200, Alumina sol 520 (Nissan Chemical Industry Co., Ltd.) are mentioned.
The second essential component used in the present invention is a colorant that is dispersed or dissolved in water, such as water-soluble dyes and self-dispersing pigments.
As the hydrophilic group of the water-soluble dye and the self-dispersing pigment, an ammonium salt, a lithium salt, or an amine salt is preferably used in addition to the sodium salt or potassium salt of carboxylic acid or sulfonic acid.
These colorants are widely marketed as ink-jet colorants.
As specific examples, PRO-JET Fast Black 1, PRO-JET Fast Black 2, PRO-JET Yellow 1, PRO-JET Magenta 1, PRO-JET Fast Yan 2, PRO-JET Fast Yellow 2, PRO-JET Fast ENT 2, (Fuji Film)
Water Yellow 1, Water Pin 25, Water Blue 3, Water Blue 9, Water Black 191-L, Water Black R455, Water Black R-510, Bonjet Black 891-L, Bonjet Black CW-1L Bonjet Magenta XXX, Bonjet Cyan XXX (Orient Chemical Industry Co., Ltd.), Food Black 2 (Hangzhou Coloric Chemicals Co., Ltd), Aqua Black 162, Aqua Black Sea Co., Ltd.
CAB-O-JET400, CAB-O-JET450C, CAB-O-JET465M, CAB-O-JET470Y, CAB-O-JET480V, CAB-O-JET270Y, CAB-O-JET300, CAB-O-JET352K, CAB -O-JET554B, CAB-O-JET270Y, CAB-O-350C (above Cabot Corporation),
Black SDP-100, Black SDP1000, Black SDP-2000, Smart Magenta 3122BA, Smart 3000 Yellow, Smart 3000 Cyan (hereinafter referred to as SENSIENT) and the like. Colorants listed here are commercially available dyes and self-dispersible or soluble in water. It is an example of a dispersion type pigment, and is not limited to this. The preferred content of these colorants is 1 to 12% by weight of the total.
In the inkjet ink composition of the present invention, the above water-soluble dyes or self-dispersing pigments can be used alone. Further, by using a water-soluble dye and a self-dispersing pigment in combination, an ink having a clear color tone, high image density, excellent light resistance, and hardly clogging can be formulated.
The third essential component of the present invention is water. Distilled water containing no impurities is preferably used.
The fourth essential component of the present invention is 2-ethyl-1.3-hexanediol and 1.6-hexanediol as organic solvents having a boiling point of 180 ° C. or higher and miscible with water or alcohol. In addition to this, particularly preferred organic solvents include diethylene glycol monobutyl ether or triethylene glycol monobutyl ether.
As the other organic solvent, for example, a solvent selected from glycols, esters, ethers, ketones, amines and lactones and having a polar parameter in the range of 40 to 55 kcal / mol is preferably used.
Specifically, diethylene glycol, propylene glycol, triethylene glycol, diethylene glycol monomethyl ether, triethylene glycol monomethyl ether, glycerin, butyl carbitol, diacetone alcohol, N-methylpyrrolidone, 1.3 dimethylimidazolidinone, toyethanolamine, Examples include ethylene carbonate, propylene carbonate, and gamma butyrolactone.
Examples of other preferable solvent components of the present invention include ethyl alcohol and isopropyl alcohol. These solvents are effective in improving the stability of ink and the printability on various printing papers.
Another preferred component of the present invention includes bishydroxyethyl sulfone. This component has a remarkable effect in improving the dispersion stability in silica sol and alumina sol inks, and is an effective component for stably ejecting ink from an inkjet head for a long time.
Further, a preferred component of the ink of the present invention is an ethylene oxide adduct of 2,4,7,9 tetramethyl-5-decyne 4.7 diol. This component has an effect of accelerating the fixing and penetration of the ink on the printing paper.
If the ink composition of the present invention is used, printing with high density and high resolution can be performed on general printing paper at high speed without a special drying device using a heat source.
In the present invention, other preferred components are polymer compounds that are soluble in water or alcohol, and those having a solubility parameter in the range of 9 to 14 are particularly suitable.
Specifically, celluloses such as cellulose acetate and hydroxyethyl cellulose, polyhydroxyethyl acrylate and copolymers thereof, polyacrylonitrile, polydimethylaminoethyl acrylate and copolymers thereof, polyamides such as polyester and nylon, resin maleate , Polymers such as polyvinyl acetate and copolymers thereof, and polyvinyl butyral.
The most preferable content of these polymer compounds is 0.1 to 5% by weight of the whole.
Addition of these polymer compounds has an effect on the friction fastness of the printed matter.
In the present invention, another preferred component is a polymer dispersant. In particular, when a self-dispersing pigment is used as a colorant, it is effective in improving its dispersion stability.
As an example of a particularly preferable polymer dispersing agent, SOLPERSE 12000, SOLPERSE 20000, SOLPERSE 27000 SOLPERSE 43000, SOLPERSE 44000, SOLPERSE 46000, SOLPERSE 54000
(Above Lubrzol). A preferred addition amount is 3 to 10 weight percent of the self-dispersing pigment.
In addition to the above essential components, the ink composition of the present invention may contain various kinds of surfactants, pH adjusters, preservatives, antifoaming agents and the like.

According to the present invention, (1) an image recorded with the ink of the present invention does not stain even when rubbed with a marker pen or a finger.
(2) Realize high image quality and high-speed fixing for a wide range of paper types used in the market.
(3) A heat source for ink drying and fixing is not required.
We can expect advantages such as.

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

Example 1
Cabojet 300 (CABOT dye self-dispersing pigment) (15gr)
2-ethyl-1,3-hexanediol (6gr)
1,6 hexanediol (10gr)
Glycerin (10gr)
Diethylene glycol monobutyl ether (3gr),
Snowtex EG-ST (Silica sol Nissan Chemical Co., Ltd.) (10gr)
Ethyl alcohol (5gr)
Distilled water (41gr)
The above materials were weighed into a beaker and stirred well to prepare a uniform solution.
The obtained ink was subjected to pressure filtration using a membrane filter having a pore size of 0.5 micron to obtain a black ink composition.
A Patterning Jet manufactured by Tritech Co., Ltd. was used as an inkjet discharge device.
The print head used was Konica Minolta KM512. Test patterns were printed on various recording papers, and the image density and marker resistance were measured and evaluated. The marker resistance was evaluated by rubbing with a yellow fluorescent pen Handy Lines manufactured by Pentel Co., Ltd. 1 minute after printing. The optical density was measured using a Macbeth reflection densitometer RD-918 on a 100% solid printed part. In all cases, high image density and excellent marker resistance (Note 1) were exhibited.

Comparative Examples 1-2
As a comparative example, an ink composition was prepared in the same manner as in Example 1 with the following composition.
Printing on various recording papers using the same inkjet apparatus as in Example 1. Image density and marker resistance were evaluated in the same manner. The results are shown in the following table.
Comparative example (1)
Cabojet300 15gr
2-ethyl-1,3-hexanediol 5gr
Glycerin 20gr
Ethyl alcohol 5gr
1,5 pentanediol 5gr
Distilled water 50gr
Comparative example (2)
Bonjet Black 891-L 20gr
Glycerin 10gr
Triethylene glycol 10gr
Petriol 10gr
10 g of triethylene glycol monomethyl ether
Distilled water 40gr

Examples 2-5
As Examples 2 to 5, ink compositions were prepared in the same manner as in Example 1 with the compositions shown below, and similarly printed on various recording papers to evaluate image density and marker resistance. The composition and evaluation results below all showed excellent image density. One Pass Jet manufactured by Tritech Co., Ltd. was used as the inkjet discharge apparatus.
A print head manufactured by Kyocera Corporation was used, and printing was performed at 600 DPI.

Example 2
Isopropyl alcohol (15gr)
2-Ethyl-1,3-hexanediol (5gr)
1.6-hexanediol (10gr)
Triethylene glycol (10gr)
Silica sol (Snowtex NPC-ST: Nissan Chemical) (20gr)
Bishydroxyethylsulfone (BHES-50: manufactured by Meisei Chemical Industry) (5gr)
2.4.7.9 Tetramethyl-5-decyne 4.7 diol ethylene oxide adduct (acetylenol E-40, manufactured by Kawaken Fine Chemicals) (0.1 gr)
FR-700ES (20% nylon resin solution water 40%, alcohol 40%: manufactured by Lead City Co., Ltd.) (1gr)
Water Black 191-L (manufactured by Orient Chemical Co., Ltd.) (3gr)
CAB-O-JET 352K (Cabot) (4gr)
Distilled water (27gr)

Example 3
Ethyl alcohol (5gr)
2-Ethyl-1,3-hexanediol (6gr)
1,6-hexanediol (15gr)
Dimethylimidazolidinone (5gr)
Glycerin (5gr)
Alumina sol-520 (Nissan Chemical) (20gr)
Distilled water (36gr)
Paogen resin (Daiichi Kogyo Seiyaku Co., Ltd.) (2gr)
2.4.7.9 Tetramethyl-5-decyne 4.7 diol (acetylenol E-40) (0.1 gr)
SOLPERSE 27000 (manufactured by LUBRIZOL) (0.2gr)
PRO-JET Fast Magenta 1 (Fuji Film Co., Ltd.) (1gr)
Smart Magenta 3122BA (SENSIENT) (6gr)

Example 4
Isopropyl alcohol (5gr)
2-Ethyl-1,3-hexanediol (6gr)
1,6-hexanediol (14gr)
Triethylene glycol monobutyl ether (12gr)
Silica sol EG-ST (15gr)
Distilled water (35gr)
Gamma butyrolactone (3gr)
Bishydroxyethylsulfone (BHES-40) (3gr)
CAB-O-JET450C (manufactured by Cabot) (6gr)
PRO-JET Fast Cyan2 (Fuji Film) (1gr)

Example 5
Ethyl alcohol (5gr)
2-Ethyl-1,3-hexanediol (3gr)
1,6-hexanediol (10gr)
Diethylene glycol monobutyl ether (3gr)
Triethanolamine (2gr)
Silica sol NPC-ST (15gr)
Alumina sol 200 (5gr)
Distilled water (50gr)
Acetylenol E-40 (Kawaken Fine Chemical Co., Ltd.) (0.1gr)
SOLPERSE 12000 (manufactured by Lubrizol) (0.3 gr)
CAB-O-JET270Y (manufactured by CABOT) (7gr)

Using the four-color ink compositions of yellow, cyan, magenta, and black shown in Examples 2 to 5 and simultaneously mounting four-color inks using a Patterning Jet manufactured by Tritech, similar to Example 1, When the high-definition color digital standard image data ISO JIS-SCIF sample image N5A issued by the Japanese Standards Association was printed on various recording papers, a clear image with no image blur was obtained.
The result of evaluating the friction resistance by rubbing with a finger 1 minute after printing is shown below.

Claims (3)

(1) silica sol and / or alumina sol; (2) a colorant that is dispersed or dissolved in water; (3) water; and (4) an organic that is miscible with water or alcohol having a boiling point of 180 ° C. (760 mmHg) or higher. An ink composition for ink-jet recording, wherein the ink composition for ink-jet recording comprises a solvent, and (4) contains 2-ethyl-1.3-hexanediol and 1.6-hexanediol. object 2. The ink composition for ink jet recording according to claim 1, wherein (4) further contains diethylene glycol monobutyl ether or triethylene glycol monobutyl ether. The ink composition for ink jet recording, wherein the colorant of (2) uses a dye that dissolves in water and a self-dispersing pigment that disperses in water.