JP2010059318A - Offset printing ink composition, and printed matter using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain an offset printing ink composition preventing the occurrence of streaky stain in offset printing. <P>SOLUTION: The offset printing ink composition contains at least pigment, a binder resin, a solvent and a surface conditioning agent. The surface conditioning agent is oxypropylenemethyl glucoside expressed by chemical formula (1), (in the formula, each of (a), (b), (c) and (d) is an integer of 0-50 and (a)+(b)+(c)+(d)≤50). <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an ink composition for offset printing and a printed material thereof. More specifically, the present invention relates to an offset printing ink composition capable of reducing striped stains generated during offset printing, and the printed matter.

  Offset printing is a printing method characterized in that printing is performed with a printing plate having no unevenness by utilizing the property that oil-based ink repels water. On the offset printing plate, an oleophilic image portion and a hydrophilic non-image portion are formed. Then, before the oil-based ink is supplied to the printing plate, an aqueous component called dampening water is supplied, and the hydrophilic non-image area is wetted with dampening water. After that, oil-based ink is supplied, ink is adhered to the oleophilic image area, and the image is formed on the hydrophilic non-image area moistened with dampening water by preventing the ink from repelling oil and water. To do.

  Therefore, the ink for offset printing is required to have both performances (printability) that, as a basic performance, reliably adhere to an oleophilic image area and not adhere to any hydrophilic non-image area. Here, if the former performance is insufficient, so-called white spots, blurring, striped stains, etc. occur on the portion of the printing paper where the ink is originally attached, and if the latter performance is insufficient, an excess portion of the printing paper surface. In addition, background stains, floating stains, striped stains, and the like to which ink adheres are generated. The printed matter in which these phenomena occur loses its value as a product and is therefore subject to disposal, leading to an increase in printing costs and an increase in waste.

  Therefore, as described above, in order to obtain a print with high cosmetic properties inherent in the offset printing method, first, an appropriate amount of ink should be reliably adhered to the image portion of the printing plate, and ink should not be adhered to the non-image portion. is necessary. However, there are many factors that affect the adhesion of ink to image areas and non-image areas, and it is known that the printing conditions and the like are greatly related to the repulsion of the printing ink itself against the dampening water.

  Usually, the image portion of the printing plate is composed of a lipophilic halftone dot surrounded by a hydrophilic non-image portion. For example, when an ink composition made of a material having higher lipophilicity adheres to the image area of the plate surface, the amount of adhesion tends to decrease due to the high resilience with dampening water in the surrounding non-image area. is there. As a result, white spots and blurring are likely to occur particularly in the highlight portion of the printed matter (which can be said to be a portion where the halftone dot area of the image portion is smaller). On the other hand, an ink composition containing a lot of highly hydrophilic materials gradually takes in dampening water during printing, resulting in a decrease in rebound, and adheres to non-image areas or mixes into the dampening water film. As a result, ground stains, floating stains, and the like occur in the printed material.

  Furthermore, even if printing is performed using the same ink, the viscosity of the dampening solution or printing ink is reduced and the non-image area is more likely to adhere if the ambient temperature, the temperature of the printing press roller or printing plate increases. Tend. In addition, since the degree of addition of new ink is different between a printing pattern that consumes a large amount of ink and a printing pattern that consumes a small amount of ink, the change in adhesion is also different.

  In this way, there are many factors that affect the adhesion of ink, and there are many that change the adhesion during printing. Therefore, it is extremely important to adjust the supply amount of dampening water in accordance with ink adhesion during printing.

  However, the performance required for inks is not limited to printability, but varies widely, such as drying properties, fluidity, and clarity of the ink itself. Designing a narrow ink composition that can maintain good printability by adjusting the amount of dampening water supplied when there is a strong demand for improved ink performance including all of them, especially performance other than printability. The current situation is unavoidable.

  Therefore, when printing conditions become severe, there may be a case where fading or background smudges cannot be eliminated by simply adjusting the supply amount of dampening water. Therefore, in order to reduce such stains during printing, a method of adding a lithographic printing ink additive having a specific alkylene oxide unit and having an average molecular weight of 400 or more has been proposed (for example, (See Patent Document 1). In the technique described in Patent Document 1, an effect is recognized in white spots and blurs in an image portion and background stains in a non-image portion.

JP-A-1-38485

  However, although various factors such as the ink composition and printing conditions are thought to overlap, striped stains in the image area or non-image area where the clear cause of occurrence is not known will occur once they occur. It is very difficult to prevent and measures are still insufficient.

  An object of this invention is to obtain the ink composition for offset printing which can prevent generation | occurrence | production of a striped stain | pollution | contamination in offset printing.

  The present invention is characterized by effectively preventing striped stains in offset printing by using a specific compound as a surface conditioner.

（但し、ａ、ｂ、ｃ、ｄはそれぞれ０〜５０の整数、１≦ａ＋ｂ＋ｃ＋ｄ≦５０） That is, the ink composition for offset printing according to the present invention and the printed material thereof are ink compositions for offset printing containing at least a pigment, a binder resin, a solvent, and a surface conditioner,
The surface-adjusting agent is polyoxypropylene methyl glucoside represented by the following chemical formula (1).

(However, a, b, c and d are each an integer of 0 to 50, 1 ≦ a + b + c + d ≦ 50)

  It is preferable that content of the said compound is 0.01-6 mass%.

  Moreover, this invention is a printed matter obtained by printing the said ink composition for offset printing.

  According to the ink composition for offset printing and the printed matter of the present invention having the above-described configuration, a normal compound is used under conditions where striped stains are likely to occur due to the feature of using a specific compound as a surface-adjusting agent. In offset printing, the occurrence of striped stains can be suppressed. Therefore, by performing offset printing using the ink composition, it is possible to obtain a clear printed material in which stains on the non-image area and the image area are sufficiently prevented.

  Hereinafter, the ink composition for offset printing and the printed material of the present invention will be described.

  First, each constituent material of the ink composition of the present invention including a pigment, a binder resin, a solvent, and a surface conditioner will be described below.

  As the pigment used to obtain the offset printing ink composition of the present invention, colorless or colored, inorganic or organic pigments generally used in ordinary offset printing inks can be used, specifically, titanium dioxide, Inorganic pigments such as barium sulfate, calcium carbonate, organic bentonite, kaolinite clay, silicon dioxide, iron oxide, carbon black; organic pigments such as azo pigments, lake pigments, phthalocyanine pigments, isoindoline pigments, anthraquinone pigments, quinacridone pigments, etc. It can be illustrated. These pigments can be used alone or in admixture of two or more. In the present invention, the content of the pigment in the ink composition is 5 to 50% by mass.

  As the binder resin constituting the offset printing ink composition of the present invention, binder resins generally used in ordinary offset printing inks can be used, and specifically, rosin-modified phenol resins, petroleum resin-modified phenol resins, etc. Examples include various phenol resins, petroleum resins, various alkyd resins, rosin ester resins, polyester resins, these dry oil-modified resins, and gilsonite resins. These compounds can be used alone or in admixture of two or more.

  Among the binder resins, rosin-modified phenolic resins and rosin-modified maleic resins are preferable, and rosin-modified phenolic resins are particularly preferable. Examples of the rosin-modified phenol resin include those obtained by reacting rosins or derivatives thereof, phenol aldehyde addition condensates (so-called resole), and, if necessary, polyhydric alcohols. Here, the rosins or their derivatives are preferably rosins or their carboxyl group-containing derivatives. Examples of the rosins include gum rosin, wood rosin, tall oil rosin, disproportionated rosin, hydrogenated rosin, and polymers thereof, and derivatives thereof include unsaturated carboxylic acids such as maleic acid, itaconic acid, and crotonic acid. Examples thereof include carboxyl group-containing derivatives such as rosin derivatives to which an acid is added. In the present invention, the content of the binder resin in the ink composition is 10 to 40% by mass.

  In addition, the said binder resin can bridge | crosslink resin by using a suitable amount gelling agent (about 15 mass% or less with respect to binder resin) as needed. Examples of the gelling agent used in such a case include aluminum alcoholates and aluminum chelate compounds. Preferred specific examples include aluminum triisopropoxide, mono-sec-butoxyaluminum diisopropoxide, and aluminum trioxide. Examples include -sec-butoxide, ethyl acetate aluminum diisopropoxide, and aluminum trisethyl acetoacetate.

  As a solvent constituting the ink composition for offset printing of the present invention, any solvent derived from vegetable oil or mineral oil can be used as long as it can dissolve the binder resin. Can be used alone or in combination.

  Examples of the vegetable oil-derived solvent include vegetable oils themselves, fatty acid esters and polymerized oils made from vegetable oils as raw materials. These can be used alone or in combination. As the vegetable oil, linseed oil, tung oil, soybean oil, rapeseed oil, cottonseed oil, corn oil, palm oil, etc. can be used regardless of drying oil or non-drying oil, but when printing is dried by air oxidation after printing A dry oil or semi-dry oil is preferably used for. Examples of the fatty acid ester include fatty acid monoalkyl ester compounds. The fatty acid constituting the fatty acid monoalkyl ester compound is a saturated or unsaturated fatty acid having 16 to 20 carbon atoms (stearic acid, isostearic acid, hydroxystearic acid, oleic acid, linoleic acid, linolenic acid, eleostearic acid, etc.) Can be illustrated. Examples of the alkyl group derived from alcohol constituting the fatty acid monoalkyl ester compound include those having 1 to 10 carbon atoms (methyl, ethyl, propyl, isopropyl, butyl, isobutyl, tert-butyl, 2-ethylhexyl). Among the above vegetable oil-derived solvents, flaxseed oil, tung oil, and soybean oil are preferably used for offset ink compositions, and among them, soy seal of the American Soybean Oil Association that shows environmentally friendly products by using a certain amount of soybean oil. There is also an advantage that you can get accreditation. These can be used alone or in combination.

  Examples of the mineral oil-derived solvent include mineral oil itself or petroleum solvents. Among these, those having a boiling point of 160 ° C. or higher, particularly 200 ° C. or higher, which are incompatible with water used as a solvent for offset printing, can be suitably used. Specifically, mineral oil such as light oil, spindle oil, machine oil, cylinder oil, terpene oil, mineral spirit; n-paraffin solvent, isoparaffin solvent, naphthene solvent, aromatic solvent, α-olefin, etc. These petroleum solvents can be exemplified, and these solvents can be used alone or in combination of two or more. In view of recent environmental problems, it is preferable to use a non-aromatic solvent. Content of the solvent in the ink composition for offset printing of this invention becomes like this. Preferably it is 30 mass% or more, More preferably, it is 30-60 mass%.

  As the surface conditioner constituting the ink composition for offset printing of the present invention, polyoxypropylene methylglucoside represented by the following chemical formula (1) is used. By using polyoxypropylene methyl glucoside represented by the following chemical formula (1), stripe-like stains can be suppressed, so that the occurrence of stains can be remarkably prevented in offset printing.

（但し、ａ、ｂ、ｃ、ｄはそれぞれ０〜５０の整数、１≦ａ＋ｂ＋ｃ＋ｄ≦５０）

(However, a, b, c and d are each an integer of 0 to 50, 1 ≦ a + b + c + d ≦ 50)

  These can be used singly or in combination, and if the content is 0.01 to 6% by mass with respect to the ink composition for offset printing of the present invention, a good effect is obtained, and more preferably 0.00. 1 to 6% by mass.

  Furthermore, in the ink composition for offset printing of the present invention, if necessary, in addition to the above constituent materials, a pigment dispersant, a friction resistance improver, an anti-set-off agent, an antioxidant, a nonionic surfactant, Additives such as a dryer can be appropriately used.

  Next, the manufacturing method of the ink composition for offset printing containing the said structural material is demonstrated. In order to produce the ink composition for offset printing of the present invention, conventionally known production methods (dry grinding method, flushing method, etc.) can be used.

  For example, (1) a varnish for oil-based printing ink is prepared in advance by heating a binder resin, a solvent, and, if necessary, a gelling agent. Next, a dry pigment, a solvent and a pigment dispersant as necessary are added to the varnish for oil-based printing ink, and the mixture is kneaded and dispersed with a bead mill or a three-roll mill to obtain a base for oil-based printing ink. Furthermore, a method for adding a surface conditioner to a base for oil-based printing ink and adjusting the viscosity to a predetermined viscosity by adding a varnish for oil-based printing ink, a solvent, and additives as required. (2) Binder resin, solvent, as required Accordingly, the varnish for oil-based printing ink is adjusted in advance by heating the gelling agent. A stirrer with a mechanism for adding a varnish for oil-based printing ink to an aqueous suspension of pigment (hydrous cake, or dry pigment to make water suspension), and to remove flasher (kneader) or solvent. And then dewatering until the water content in the flushed composition is preferably 2% by mass or less. Next, an oil-based printing ink base is obtained by adding a varnish for oil-based printing ink and the like to the dehydrated composition, if necessary, and kneading and dispersing with a bead mill or a three-roll mill. Furthermore, a method of adding a surface conditioner to the base for oil-based printing ink and adjusting the viscosity to a predetermined viscosity by adding a varnish for oil-based printing ink, a solvent, and an additive as necessary.

  Furthermore, the offset printing ink composition of the present invention is printed on a printing substrate such as coated paper, finely coated paper, high quality paper, medium quality paper, etc. by an offset printing method using a normal fountain solution. Can be obtained. The printed matter thus obtained is a beautiful printed matter in which striped stains are sufficiently prevented.

  EXAMPLES Hereinafter, although an Example is given and this invention is demonstrated further in detail, this invention is not limited only to these Examples. Unless otherwise specified, “%” means “% by mass”, and “part” means “part by mass”.

Production Example 1 <Manufacture of Varnish for Offset Printing Ink>
A four-necked flask equipped with a condenser, thermometer and stirrer is charged with rosin-modified phenolic resin, soybean oil, petroleum solvent (Aroma Free Solvent No. 7 manufactured by Nippon Oil Corporation) to the following composition, and 200 ° C. After heating up to 1 hour, the mixture was heated and stirred at the same temperature for 1 hour to obtain a varnish for offset printing ink.

(Mixing ratio)
Rosin modified phenolic resin (KG-1804: manufactured by Arakawa Chemical Co., Ltd.): 50 parts, soybean oil: 10 parts, petroleum solvent: 40 parts Total 100 parts

Production Example 2 <Manufacture of base ink composition for offset printing>
Carmine 6B (pigment manufactured by Sumika Color Co., Ltd.) and the varnish for offset printing ink obtained in Production Example 1 were mixed in the following composition, and kneaded sequentially with a bead mill and a three-roll mill. Next, soybean oil and a petroleum solvent were charged so as to have the following composition and stirred to obtain a base ink composition for offset printing.

(Mixing ratio)
Varnish for offset printing ink: 54.6 parts, Pigment: 16 parts, Soybean oil: 1.5 parts, Petroleum solvent: 27.9 parts Total: 100 parts

Examples 1-4, Comparative Examples 1-3
<Manufacture of ink composition for offset printing>
Example 1 was prepared by adding a leveling agent to the base ink composition for offset printing obtained in Production Example 2 so that the blending percentage shown in Table 1 was obtained as a pure leveling agent based on the total mass of the ink composition. To 4 and Comparative Examples 1 to 3 were obtained.

In addition, the structure of polyoxypropylene methyl glucoside (product name: Glycopolyol, manufactured by Nippon Oil & Fats Co., Ltd.) in Table 1 is as shown in the following chemical formula (2).

[Striped dirt evaluation test]
The striped stain resistance of the ink compositions for offset printing of Examples 1 to 4 and Comparative Examples 1 to 3 is such that striped stains are likely to occur on a 5N-600 printing experimental machine manufactured by Higashihama Seiki Co., Ltd. Evaluation was made by printing. The printing test was carried out with the dampening water supply amount kept constant, and judged by whether or not the printing paper surface was stained. Table 1 shows the test results when the CTP plate was printed and when the PS plate (conventional plate) was printed. Here, as for the evaluation criteria of the anti-striped stain resistance in the table, ○ when the area of the striped stain is 0% (no stripe), △, 30% or more when it exceeds 0% and less than 30% In the case of x, it was set as x.

The conditions when the printing test was conducted are as follows.
Printing machine: 5N-600 printing experiment machine (dampening water mechanism: spray water supply method) (manufactured by Higashihama Seiki Co., Ltd.) Printing plate: PS plate; V-NN (manufactured by Fuji Film Co., Ltd.)
CTP version; HN-N (manufactured by FUJIFILM Corporation)
Dampening water: Eco Seven N-1 (concentration in dampening water 0.7 vol%)
Printing speed: 120,000 copies / hour Temperature / Humidity: 25 ° C / 60%
Printing paper: Super lightweight newsprint (Oji Paper Co., Ltd.)

  The ink composition of the present invention using a specific compound as a surface conditioner has an effect of preventing stripe stains in offset printing using a PS plate and a CTP plate, and the target printing is commercial printing or newspaper printing. Either of them can be used.

Claims (3)

An ink composition for offset printing containing at least a pigment, a binder resin, a solvent, and a surface conditioner,
An offset printing ink composition, wherein the leveling agent is a polyoxypropylene methyl glucoside represented by the following chemical formula (1).

(However, a, b, c and d are each an integer of 0 to 50, 1 ≦ a + b + c + d ≦ 50) The ink composition for offset printing according to claim 1, wherein the content of the surface conditioner is 0.01 to 6% by mass. The printed matter obtained by printing the ink composition for offset printing of Claim 1 or 2.