Title of Invention	A PROCESS FOR PREPARING A PRINTING INK.
Abstract	A PROCESS FOR PREPARING AN OFFSET INK WHICH COMPRISES PRODUCING A DISAZO PIGMENT COMPOSITION AND KNEADING THE COMPOSITION THUS OBTAINED IN AN OFFSET INK VEHICLE, BEING AT LEAST ONE RESIN SELECTED FROM A GROUP CONSISTING OF ROSIN PHENOLIC RESINS, PETROLEUM RESINS, ALKYD RESINS AND DRY OIL RESINS THEREOF AND IN AT LEAST ONE ADDITIVE SELECTED FROM THE GROUP CONSISTING OF INK SOLVENTS, DRIERS, LEVELING AGENTS AND THICKENERS, WHEREIN SAID DISAZO PIGMENT COMPOSITION, HAVING BOTH HIGH FLOW ABILITY AND HIGH VISCOSITY, COMPRISING (a) DISAZO PIGMENT, (b) AN ASYMMETRICAL DISAZO COMPOUND HAVING A WATER-SOLUBLE GROUP AND (c) AN ASYMMETRICAL DISAZO COMPOUND, WHICH HAS A SUBSTITUENT GROUP POSSESSING A HYDROGEN-BONDING PROPERTY.

Title of Invention

A PROCESS FOR PREPARING A PRINTING INK.

Abstract

A PROCESS FOR PREPARING AN OFFSET INK WHICH COMPRISES PRODUCING A DISAZO PIGMENT COMPOSITION AND KNEADING THE COMPOSITION THUS OBTAINED IN AN OFFSET INK VEHICLE, BEING AT LEAST ONE RESIN SELECTED FROM A GROUP CONSISTING OF ROSIN PHENOLIC RESINS, PETROLEUM RESINS, ALKYD RESINS AND DRY OIL RESINS THEREOF AND IN AT LEAST ONE ADDITIVE SELECTED FROM THE GROUP CONSISTING OF INK SOLVENTS, DRIERS, LEVELING AGENTS AND THICKENERS, WHEREIN SAID DISAZO PIGMENT COMPOSITION, HAVING BOTH HIGH FLOW ABILITY AND HIGH VISCOSITY, COMPRISING (a) DISAZO PIGMENT, (b) AN ASYMMETRICAL DISAZO COMPOUND HAVING A WATER-SOLUBLE GROUP AND (c) AN ASYMMETRICAL DISAZO COMPOUND, WHICH HAS A SUBSTITUENT GROUP POSSESSING A HYDROGEN-BONDING PROPERTY.

Full Text	The present invention is divided out of the Indian Patent Application No 1445CAL97 BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a process for preparing an offset 1 ink, more specifically an offset ink comprising a disazo pigment composition with exceptional flow ability and viscosity. 2. Description of Related Art As examples of conventional methods for improving the flow ability and transparency of printing inks and coatings containing disazo pigments, Japanese Patent Application, Second Publication No Sho 45-11026 teaches a method for mixing sulfonic acid components into disazo pigments, United States Patent No 3759731 teaches a method of using disazo pigments formed by using a mixture of non-polar coupling components and polar coupling components having carboxylic acid groups and/or sulfonic acid groups as coupling components, and United States Patent No 4894094, United States Patent No 4981489 and Japanese Patent Application, First Publication No Sho C3- 178169 teach a method of using asymmetric disazo pigment compositions formed from polar coupling components and non-polar coupling components. United States Patent No. 4894094, United States Patent No. 4981489 and Japanese Patent Application, First Publication No. 63-178169 disclose methods for selectively producing asymmetric disazo pigments. In earlier disazo pigment producing methods, as disclosed in United States Patent No 37599731, a mixture of common symmetric disazo pigments and symmetric disazo pigments of acetoacetanilides having carboxylic acid groups and/or sulfonic acid groups was produced. Additionally, as methods for improving the heat stability (transparency) or color strength, there are methods of producing disazo pigments by mixing coupling components, which have substituent groups possessing a hydrogen-bonding property, with common coupling components. For example, Japanese Patent Application, Second Publication No Sho 59-19150 teaches a method of producing disazo pigments by mixing coupling components having carboxylic acid amide groups into common coupling components, Japanese Patent Application, First Publication No Sho 55-89356 teaches a method of producing disazo pigments by mixing coupling components having acetylammo groups into common coupling components, United States Patent No 4665163 teaches a method of producing disazo pigments bv mixing coupling components having benzimidazolone groups into common coupling components, and Japanese Patent Application, First Publication No Sho 62-197460 teaches a method of producing disazo pigments by mixing coupling components having sulfonamide groups into common coupling components. However, the compositions of the disazo pigments due to these production methods are believed to be mixed crystals (Japanese Patent Application, Second Publication No. Sho 59-19150) or mixtures of symmetric disazo pigments of acetoacetanilides, which have substituent groups possessing a hydrogen-bonding property, and common symmetric disazo pigments, and the methods for producing asymmetric disazo compounds and their effects have not been conventionally known. The flow ability, heat stability and color strength of inks and coatings have been independently resolved in the conventional art. In particular, while the flow ability of inks and coatings have been markedly improved along with the recent trends toward higher speed printing and coating, the improvements m flow ability have also resulted m decreases in the viscosity of inks and coatings Decreases in viscosity can result in various problems For example, if the viscosity of oil-based inks decreases, the dot gain increases, the definition of printed articles is degraded, and an ink flying phenomenon known as misting occurs upon printing Additionally, with liquid inks, there is a problem in that bleeding and mottling occur as a result of permeation and" diffusion of the ink. Furthermore, in coatings, it is difficult to retain an appropriate film thickness, and sagging tends to occur upon coating. Thus, disazo pigments capable of achieving a high viscosity while maintaining high flow ability have heretofore been unknown. SUMMARY OF THE INVENTION The present invention has the object of offering a disazo pigment which has both high, flow ability and high viscosity when used in inks or coatings, and a printing ink which has both high flow ability and high viscosity. The present inventors conducted diligent research for the purposes of developing a disazo pigment having both high flow ability and high viscosity, as a result of which they discovered that a disazo pigment composition obtained by mixing two types of asymmetric disazo compounds expressed by the below-given general formulas (I) and (II) into a disazo pigment, and a printing ink containing this disazo pigment composition has these properties, thereby accomplishing the present invention. The present invention provides a process for preparing an offset ink which comprises producing a disazo pigment composition and kneading the composition thus obtained m an offset ink vehicle being at least one resin selected from a group consisting of rosin phenolic resins, petroleum resins, alkyd resins and dry oil resins thereof and in at least one additive selected from the group consisting of ink solvents, driers, Leveling agents and thickeners, wherein the disazo pigment composition comprises the following components (a) to (c) (a) a disazo pigment, such as herein described (b) a disazo compound expressed by the following formula (I) wherein X and Y each independently denote a hydrogen atom, a halogen atom, an alkyl group with 1-4 carbon atoms, an alkoxyl group with 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group with 1-4 carbon atoms, provided that X and Y never simultaneously denote hydrogen atoms, Z1 denotes a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and Z2 denotes a phenyl group or naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl" groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and having a carboxylic acid group and/or a sulfonic acid group which may be a salt of a metal of at least one type selected from the group consisting of alkali earth metals, aluminum, magnesium and zinc, and (c) a disazo compound expressed by the following Formula (II) wherein X and Y each independently denote a hydrogen atom, a halogen atom, an alkyl group with 1-4 carbon atoms, an alkoxyl group with 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group with 1-4 carbon atoms, provided that X and Y never simultaneously denote hydrogen atoms, Z1 denotes a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and Z3 denotes a benzimidazolone residue, a phthalimide residue, or a phenyl group or naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl, and having 1-4 substituent groups selected from the group consisting of carboxylic amide groups, sulfonic amide groups and acetainido groups the amounts of the above (a) to (c) are such that when totaJ amount of (a) (b) and (c) is 100 % by weight, the amount of (b) is 1 to 20 % by weight, the amount of (c) is 1 to 20 % by weight, and the amount (a) is the balance, the piocess comprising one of the following methods (d) to (f) (d) a method of mixing the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) into a disazo pigment synthesized by a conventional method, then extracting as a press cake pigment or a powdei pigment, (e) a method of sequentially mixing in a disazo pigment synthesized by a conventional method, the disazo compound expressed by general formula (I) and the disazo compound expiessed by general formula (II) which have been separately stored, when preparing an ink or a coating, or (f) a method of simultaneously synthesizing a disazo pigment, the disazo compound expiessed by general formula (1) and the disazo compound expressed by genera] formula (II), the above-described method (f) being a method of the following (i) or (h) (l) a method of obtaining a disazo pigment composition by mixing a reaction intermediate of the tetrazo compound of aromatic diamine expressed by general formula (III) (wherein X and Y each independently represent a hydrogen atom, a halogen atom, an alky] group having 1-4 caibon atoms an alkoxyl group having 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group having 1 -4 carbon atoms, with the exception that X and Y never simultaneously represent hydrogen atoms) and an acetoacetamide compound (hereinafter refened to as coupling component A2) expressed by the following general formula (IV) CH3COCH2CONH- Z2 •• (IV) (wherein Z2 represents a phenyl group or a naphthy] group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, the phenyl groups or naphtbyl groups having 1-4 carboxylic acid groups and/or sulfonic acid groups; the carboxylic acid groups and/or sulfonic acid groups being capable of being salts of at least one type of meta! selected from the group consisting of alkali earth metals, aluminum, magnesium and zinc) with a reaction intermediate of the tetrazo compound of aromatic diamine expressed by general formula (III) and an acetoacetamide compound (hereinafter referred to as coupling component A3) expressed by the following geneial formula (VI) CH3COCH2CONH—Z3 .. (VI) (wherein Z3 is a benzimidazolone residue, a phthalimide residue, or a phenyl group or a naphthy) group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, the phenyl groups or naphthyl groups haying 1-4 substituent groups selected from the group consisting of carboxylic amides, sulfonic amides and acetamido groups), and adding the mixture, or adding these reaction intermediates without mixing them, to acetoacetamide compound (hereinafter referred to as coupling component A1) expressed by the following general formula (V) CH3COCH2CONH—Z1 (V) (wherein Z1 represents a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups) to induce a reaction, or (n) a method of mixing together a pigment composition obtained by reacting a reaction inteimediate of the tetrazo compound of aromatic diamine expressed by general formula (III) and coupling component A2 with the coupling component A1, and a pigment composition obtained by reacting a reaction intermediate of the tetrazo compound of aromatic diamine expressed by general formula (III) and coupling component A3 with the coupling component A1 The invention also provides for a process for preparing a printing ink which comprises producing a disazo pigment composition by mixing a disazo pigment such as herein described with disazo compounds of formula (I) and formula (II)as defined hereinabove, simultaneously or sequentially and kneading the composition thus obtained in a printing ink vehicle such as herein described The disazo pigment composition of the present invention is capable of offering a lithographic ink having high flow ability so as to be able to handle high speed printing, and having high viscosity so as not to increase the dot gain, degrade the definition of printed articles or cause an ink flying phenomenon known as misting when printing. DESCRIPTION OF THE PREFERRED EMBODIMENTS The disazo compound expressed by the general formula (I) used in the present invention is capable of being produced, for example, according to the following production method. That is, a method of producing the disazo compound expressed by general formula (I) produced by reacting a tetrazo compound formed by inducing a tetrazo reaction by a conventional method on the aromatic diamine expressed by the following general formula (III) (wherein X and Y each independently represent a hydrogen atom, a nalogen atom, an alkyl group having 1-4 carbon atoms, an alkoxyl group having 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group having 1-4 carbon atoms, with the exception that X and Y never simultaneously represent hydrogen atoms) with an acetoacetamide compound (hereinafter referred to as coupling component A2) expressed by the following general formula (IV) CH3COCH2CONH—Z2 .. (IV) (wherein Z2 represents a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, the phenyl groups or naphthyl groups having 1-4 carboxylic acid groups and/or sulfonic acid groups, the carboxylic acid groups and/or sulfonic acid groups being capable of being salts of at least one type of metal selected from the group consisting of alkali earth metals, aluminum, magnesium and zinc), then inducing a reaction between this reaction product and the acetoacetamide compound (hereinafter referred to as coupling component A1) expressed by the following general formula (V) CH3COCH2CONH— Z1 (V) (wherein Z1 represents a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups) to produce the disazo compound expressed by general formula (I). The disazo compound expressed by the general formula (I) used in the present invention may be such that the carboxylic acid groups and/or sulfonic acid groups thereof are salts of metals selected from the group consisting of alkali earth metals, aluminum, magnesium and zinc. The above-mentioned metal salts can be water-soluble metal salts of metals selected from the group consisting of alkali earth metals, aluminum, magnesium and zinc, preferably water-soluble metal salts of aluminum, in the form of aqueous solutions if needed, added to a suspension solution of a disazo compound expressed by the general formula (I) to induce a reaction, then the result can be filtered and rinsed. Here, examples of water-soluble metal salts are calcium chloride, strontium chloride, strontium nitrate, barium chloride, aluminum chloride, aluminum sulfate, magnesium chloride and zinc chloride Among the disazo compounds expressed by the general formula (I), the disazo compounds should preferably be such that X and Y in the formulas are each independently a hydrogen atom or a chlorine atom (with the exception that X and Y are not both hydrogen atoms), Z1 is a phenyl group which may have 1-2 methyl groups or methoxy groups, Z2 is a phenyl group which may have a hydroxyl group or a chlorine atom, wherein the phenyl group has a carboxylic acid group or a sulfonic acid group. Furthermore, it is especially preferable that X and Y in the formulas are each independently a hydrogen atom or a chlorine atom (with the exception that X and Y are not both hydrogen atoms), Z1 is a phenyl group which may have 1-2 methyl groups or methoxy groups, Z2 is a phenyl group which may have a hydroxyl group and has a carboxylic acid group (or an aluminum salt). The disazo compound expressed by general formula (II) used in the present invention may, for example, be produced according to the production method described below That is, a method of producing the disazo compound expressed by general formula (II) produced by reacting a tetrazo compound formed by inducing a tetrazo reaction by a conventional method on the aromatic diamine expressed by the above-given general formula (III) with an acetoacetamide compound (hereinafter referred to as coupling component A3) expressed by the following general formula (VI) CH3COCH2CONH—Z3 (VI) (wherein Z3 is a benzimidazolone residue, a phthalimide residue, or a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, the phenyl groups or naphthyl groups having 1-4 substituent groups selected from the group consisting of carboxylic amides, sulfonic amides and acetamido groups), then inducing a reaction between this reaction product and the acetoacetamide compound (hereinafter referred to as coupling component A1) expressed by the following general formula (V). CH3COCH2CONH—Z1 - (V) (wherein Z1 represents a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups) to produce the disazo compound expressed by general formula (II) Among the disazo compounds expressed by the general formula (II), the disazo compounds should preferably be such that X and Y in the formulas are each independently a hydrogen atom or a chlorine atom (with the exception that X and y are not both hydrogen atoms), Z1 is a phenyl group which may have 1-2 methyl groups or methoxy groups, Z3 is a benzimidazolone residue, or a phenyl group having a carbamoyl group, an acetamido group or a sulfamoyl group. Furthermore, it is especially preferable that X and Y in the formulas are each independently a hydrogen atom or a chlorine atom (with the exception that X and Y are not both hydrogen atoms), Z1 is a phenyl group which may have 1-2 methyl groups or methoxy groups, Z3 is a phenyl group having a carbamoyl group, or an acetamido group. As examples of aromatic diamines expressed by general formula (III), there are 3,3"-dichlorobenzidine, 3,3"- dibromobenzidme, 2,2"-dichlorobenzidine, 3,3"- dimethoxybenzidme, 3,3"-dimethylbenzidme, 3,3", 6,6"- tetrachlorobenzidme, 3,3" -dimethoxycarbonylbenzidme, 3, 3"-dibutylbenzidme and 3, 3 "-dibutoxycarbonylbenzidme As examples of acetoacetamide compounds expressed by general formula (IV), 2-acetoacetylaminobenzene sulfonic acid, 3-acetoacetylaminobenzene sulfonic acid, 4- acetoacetylaminobenzene sulfonic acid, 2-acetoacetylamino- 5-methylbenzene sulfonic acid, 2-acetoacetylamino-4- chloro-5-methylbenzene sulfonic acid, 2-acetoacetylammo- 5-chloro-4-methylbenzene sulfonic acid, 4- acetoacetylamino-2,3-dichlorobenzene sulfonic acid, 2- acetoacetylaminonaphthalene sulfonic acid, acetoacetylaminomethane sulfonic acid, acetoacetylaminoethane sulfonic acid, 2-acetoacetylamino benzoic acid, 3-acetoacetylamino benzoic acid, 4- acetoacetylamino benzoic acid, 3-acetoacetylamino-4-chloro benzoic acid, 2-acetoacetylamino-5-bromo benzoic acid, 3- acetoacetylamino-4-methoxy benzoic acid, 2- acetoacetylamino-5-chloro benzoic acid, 2-acetoacetylamino terephthalic acid, 3-acetoacetylamino lsophthalic acid, 4- acetoacetylamino-2-hydroxy benzoic acid and 5- acetoacetylamino-2-hydroxy benzoic acid. As examples of acetoacetamides expressed by the general formula (V), there are acetoacetanilide, acetoacet-o-toluidide, acetoacet-p-toluidide, acetoacet-m- xylidide, acetoacet-o-chloroanilide, acetoacet-p- bromoanilide, acetoacet-o-anisidide, acetoacet-p-anisidide, acetoacet-4-chloro-2,5-dimetoxyanilide, acetoacet-4- ethylanilide and 1-acetoacetylaminonaphthalene As examples of acetoacetamide compounds expressed by the general formula (VI), there are 4-acetoacetylamino benzamide, 4-acetoacetylamino benzene sulfonamide, 3- acetoacetylammo-4-chloro benzamide, 3-acetoacetylammo-4- methyl benzamide, 4-acetoacetylammo acetanilide, 5- acetoacetylamino benzimidazolone and 4-acetoacetylamino phthalimide As examples of the disazo pigment usea in the present invention, there are the disazo pigments expressed by the following general formula (VII) (wherein X and Y each independently represent a hydrogen atom, a halogen atom, an alkyl group having 1-4 carbon atoms, an alkoxyl group having 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group having 1-4 carbon atoms, with the exception that X and Y never simultaneously represent hydrogen atoms, and Z1 represents a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups) Additionally, examples of the disazo pigment used in the present invention, expressed by C I pigment number, are Y-12, Y-13, Y-14, Y-16, Y-17, Y-55, Y-57, Y-81, Y-83, Y113, 0-15 and 0-16, among which Y-12, Y-13, Y-14, Y-17, Y-55, Y-57 and Y-81 are most preferable The disazo pigment composition of the present invention containing a disazo pigment, the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II), can be produced by the following methods (a) a method of mixing the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) into a disazo pigment synthesized by a conventional method, then extracting as a press cake pigment or a powder pigment; (b) a method of sequentially mixing in a disazo pigment synthesized by a conventional method, the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) which have been separately stored, when preparing an ink or a coating; or (c) a method of simultaneously synthesizing a disazo pigment, the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II). More specifically, the above-described method (c) is a method of obtaining a disazo pigment composition by mixing a reaction intermediate of the tetrazo compound of aromatic diamine expressed by general formula (III) and coupling component A2 with a reaction intermediate of the tetrazo compound of aromatic diamine expressed by general formula (III) and coupling component A3, and adding the mixture, or adding these reaction intermediates without mixing them, to coupling component A1 to induce a reaction Alternatively, it is also possible to use a method of mixing together a pigment composition obtained by reacting a reaction intermediate of the tetrazo compound of aromatic diamine expressed by general formula (III) and coupling component A2 with the coupling component A1, and a pigment composition obtained by reacting a reaction intermediate of the tetrazo compound of aromatic diamine expressed by general formula (III) and coupling component A3 with the coupling component A1. In the above-described method (c), the ratio of use of coupling component A2, coupling component A3 and coupling component Al must be appropriately selected so that the content of the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) in the solid portion of the disazo pigment composition of the present invention is within the below-described range. Among the above-mentioned methods (a)- (c), method (c) is especially preferable because it is easily capable of resulting in a disazo pigment composition wherein the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) are finely dispersed in the disazo pigment. When producing the disazo pigment composition of the present invention, it is preferable that the disazo pigment, the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) have a common skeletal structure, for example, by selecting the disazo pigment expressed by general formula (VII), the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) such that X, Y and Z1 are identical in all of the general formulas, due to the high dispersion effects which can be obtained. The proportional content of the disazo pigment, the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) in the disazo pigment composition of the present invention is important in order to obtain a disazo pigment composition having both high flow ability and high viscosity. The proportional content of the disazo compound expressed by general formula (I) in the solid portion of the disazo pigment composition of the present invention should preferably be within the range of 0.5--49% by weight, and more preferably in the range of 1-20% by weight when considering the raw material cost When the proportional content of the disazo compound expressed by general formula (I) in the disazo pigment composition is less than 0.5% by weight, the viscosity of the resulting ink or coating tends to become reduced, while if more than 49% by weight, the flow ability of the resulting ink or coating tends to become reduced Additionally, the proportional content of the disazo compound expressed by general formula (II) in the solid portion of the disazo pigment composition of the present invention should preferably be within the range of 0.5-49% by weight, and more preferably in the range of 1-20% by weight when considering the raw material cost. When the proportional content of the disazo compound expressed by general formula (II) in the disazo pigment composition is less than 0.5% by weight, the flow ability of the resulting ink or coating tends to become reduced, while if more than 49% by weight, the viscosity of the resulting ink or coating tends to become reduced. In the solid portion of the disazo pigment composition of the present invention, the total proportional content of the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) should preferably be within the range of 1-49% by weight, and more preferably within the range of 4-35% by weight Additionally, the weight ratio (I)/(II) of the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) should preferably be within the range of 20/80-80/20, and more preferably within the range of 30/70-75/25 The disazo pigment composition of the present invention can be kneaded into a printing ink vehicle and used as a printing ink Offset ink vehicles are composed, for example, of resins such as rosin phenolic resins, petroleum resins, alkyd resins and dry oil resins thereof, vegetable oils such as Tinseed oil, tung oil and soybean oil if needed, and solvents such as n-paraffin, lsoparaffin, aromatic hydrocarbons solvent, naphthene and a-olefm, of which the proportional mixture in parts by weight should preferably be within the range of resin vegetable oil solvent = 20-50 0-30 10-60. The offset ink vehicle containing the disazo pigment composition of the present invention can be formed into a printing ink by suitably blending in commonly known additives such as ink solvents, driers, levelling agents and thickeners as needed. Additionally, gravure ink vehicles are composed of resin mixtures such as gum rosin, wood rosin, tall oil rosin, coal rosin, lime rosin, rosin ester, maleic acid resin, gilsonite, dammar, shellac, polyamide resin, vinyl resin, nitrocellulose, cyclized rubber, ethyl cellulose, cellulose acetate, ethylene-vinyl acetate copolymer resin, urethane resin, polyester resin and alkyd resin, and solvents such as n-hexane, toluene, ethanol, methanol, acetone, ethyl acetate, ethyl lactate, cellsolve, diacetone alcohol, chlorobenzole, ethyl ether, acetal ethyl ether, ethyl acetoacetate and butyl acetate cellsolve, wherein the mixture proportion in parts by weight should preferably be within the range of resin mixture solvent = 10-50 30-80. The gravure ink vehicle containing the disazo pigment composition of the present invention can be formed into a printing ink by suitably blending in extender pigments such as barium sulfate, barium carbonate, calcium carbonate, gypsum, alumina white, clay, silica, silica white, talc, calcium silicate and sedimentary magnesium carbonate as needed, as well as plasticizers, anti-UV agents, anti-oxidants and anti-static agents as adjuvants. EXAMPLES Hereinbelow, the present invention shall be explained in further detail by means of comparative examples and test examples, however, the present invention should not be construed as being limited by these examples Additionally, the "parts" and "%" as used in the following examples are always by weight where there are no statements to the contrary. After blending together a press cake of 3,3"- dichlorobenzidine hydrochloride in an amount corresponding to 150 parts of the 3, 3"-dichlorobenzidme expressed by the following Formula (1) with 186 parts of 35% hydrochloric acid, 1500 parts of water and 750 parts of ice, an aqueous solution of 86 parts of sodium nitrite was added under exposure to ice to obtain a tetrazo solution of 3, 3"-dichlorobenzidine 16.5 parts of the 2-acetoacetylamino benzoic acid expressed by the following Formula (2) were added to this 3, 3"-dichlorobenzidme tetrazo solution, then the result was mixed for three hours to obtain a reaction intermediate (A1) Separately, after a press cake of 3,3"- dichlorobenzidine hydrochloride in an amount corresponding to 150 parts of the 3,3"-dichlorobenzidme expressed by following Formula (1) was blended with 186 parts of 35% hydrochloric acid, 1500 parts of water and 750 parts of ice, an aqueous solution of 86 parts of sodium nitrite was added under exposure to ice to obtain a tetrazo solution of 3,3"-dichlorobenzidme. 16 4 parts of the 4- acetoacetylamino benzamide expressed by the following Formula (3) were added to this 3, 3"-dichlorobenzidine tetrazo solution, then the result was mixed for three hours to obtain a reaction intermediate (B1) Next, after blending together and dissolving 414.3 parts of the acetoacetanilide expressed by the following Formula (4)• with 54 6.4 parts of a 25% sodium hydroxide solution and 7200 parts of water, diluted acetic acid comprising 228 parts of 90% acetic acid and 1000 parts of water were dripped therein over a period of one hour, upon which crystals precipitated to obtain reaction intermediate (C1). Supply pumps were prepared so as to allow the reaction intermediate (A1) and the reaction intermediate (B1) to be dripped at a constant speed, and these were dripped into the reaction intermediate (C1) while regulating the fluid temperature to 5-10°C over a period of three hours to obtain a pignent slurry. After the dripping was completed, the result was mixed for one more hour and heated to 80°C. The reaction mixture was filtered and the filter cake was rinsed to obtain a pigment press cake of the disazo pigment composition of the present invention. Hereinbelow, this will be referred to as Example Press Cake 1. After drying a portion of the Example Press Cake 1 and taking FD/MS measurements, peaks caused by molecular ions were present at m/z = 628, m/z = 672 and m/z = 671, thus confirming that the Example Press Cake 1 contained the disazo pigment (C I pigment Y-12) expressed by the following Formula (P-1). the disazo compound (corresponding to a compound expressed by Formula (1)) expressed by the following Formula (I-1) and the disazo compound (corresponding to a compound expressed by Formula (II)) expressed by the following Formula (II-1) Additionally, the proportional content of the disazo compound expressed by Formula (I-1) and the disazo compound expressed by Formula (II-1) in the solid portion of the resulting disazo pigment composition were respectively 6% and 6%. After blending together a press cake of 3,3"- dichlorobenzidine hydrochloride in an amount corresponding t" 300 parts of the 3,3"-dichlorobenzidine expressed by Formula (1) with 372 parts of 35% hydrochloric acid, 3000 parts of water and 1500 parts of ice, an aqueous solution of 172 parts of sodium nitrite was added under exposure to ice to obtain a tetrazo solution of 3,3"-dichlorobenzidine, 16 5 parts of the 2-acetoacetylamino benzoic acid expressed by Formula (2) were added to this 3,3"- dichlorobenzidine tetrazo solution, then the result was mixed for three hours to obtain a reaction intermediate (a1) . Next, after blending together and dissolving 427.5 parts of the acetoacetanilide expressed by Formula (4) with 546.4 parts of a 25% sodium hydroxide solution and 7200 parts of water, diluted acetic acid comprising 228 parts of 90% acetic acid and 1000 parts of water were dripped therein over a period of one hour, upon which crystals precipitated to obtain reaction intermediate (c1). Supply pumps were prepared so as to allow the reaction intermediate (al) to be dripped at a constant speed, and this was dripped into the reaction intermediate (c1) while regulating the fluid temperature to 5-10°C over a period of three hours to obtain a pigment slurry. After the dripping was completed, the result was mixed for one more hour and heated to 80°C. The reaction mixture was filtered and the filter cake was rinsed to obtain a pigment press cake containing tne disazo pigment expressed by Formula (P-1) and the disazo compound expressed by Formula (I-1) The proportional content of the disazo compound expressed by Formula (I-l) in the solid portion of the resulting pigment press cake was 6%. Hereinbelow, this will be referred to as Comparative Example Press Cake 1 After blending together a press cake of 3,3"- dichlorobenzidine hydrochloride in an amount corresponding to 300 parts of the 3,3"-dichlorobenzidine expressed by Formula (1) with 372 parts of 35% hydrochloric acid, 3000 parts of water and 1500 parts of ice, an agueous solution of 172 parts of sodium nitrite was added under exposure to ice to obtain a tetrazo solution of 3,3"-dichlorobenzidine. 16.4 parts of the 4-acetoacetylamino benzamide expressed by Formula (3) were added to this 3,3" -dichlorobenzidine tetrazo solution, then the result was mixed for three hours to obtain a reaction intermediate (b2) Next, after blending together and dissolving 427 5 parts of the acetoacetanilide expressed by Formula (4) with 546 4 parts of a 25% sodium hydroxide solution and 7200 parts of water, diluted acetic acid comprising 228 parts of 90% acetic acid and 1000 parts of water were dripped therein over a period of one hour, upon which crystals precipitated to obtain reaction intermediate (c2) Supply pumps were prepared so as to allow the reaction intermediate (b2) to be dripped at a constant speed, and this was dripped into the reaction intermediate (c2) while regulating the fluid temperature to 5-10°C over a period of three hours to obtain a pigment slurry. After the dripping was completed, the result was mixed for one more hour and heated to 80°C The reaction mixture was filtered and the filter cake was rinsed to obtain a pigment press cake containing the disazo pigment expressed by Formula (P-1) and the disazo compound expressed by Formula (II-1). The proportional content of the disazo compound expressed by Formula (II-1) in the solid portion of the resulting pigment press cake was 6%. Hereinbelow, this will be referred to as Comparative Example Press Cake 2. Using the same procedure as in Example 1, with the exceptions that the 16.5 parts of the 2-acetoacetylamino benzoic acid expressed by Formula (2) were replaced by 35.4 parts of the 5-acetoacetylamino-2-hydroxy benzoic acid expressed by the following Formula (5) the amount of the 4-acetoacetylamino benzamide expressed by Formula (3) was increased from 16.4 parts to 43 8 parts and the amount of the acetoacetanilide expressed by Formula (4) was decreased from 414.3 parts to 379.1 parts, a pigment press cake of the disazo pigment composition according to the present invention was obtained. Hereinbelow, this will be referred to as Example Press Cake 2. After drying a portion of the Example Press Cake 2 and taking FD/MS measurements, peaks caused by molecular ions were present at m/z = 628, m/z = 688 and m/z = 671, thus confirming that the Example Press Cake 2 contained the disazo pigment (C. I. pigment Y-12) expressed by Formula (P-1), the disazo compound (corresponding to a compound expressed by Formula (1)) expressed by the following Formula (1-2) and the disazo compound (corresponding to a compound expressed by Formula (II)) expressed by Formula (II-1). Additionally, the proportional content of the disazo compound expressed by Formula (1-2) and the disazo compound expressed by Formula (II-1) in the solid portion of the resulting disazo pigment composition were respectively 13% and 17%. Using the same procedure as in Comparative Example 1, with the exceptions that the 16.5 parts of the 2- acetoacetylamino benzoic acid expressed by Formula (2) were replaced by 35.4 parts of the 5-acetoacetylamino-2- hydroxy benzoic acid expressed by Formula (5), and the amount of the acetoacetanilide was decreased from 427.5 parts to 414.3 parts, a pigment press cake containing the disazo pigment expressed by Formula (P-1) and the disazo compound expressed by Formula (I-2) was obtained. The proportional content of the disazo compound expressed by Formula (I-2) in the solid portion of the resulting pigment press cake was 13%. Hereinbelow, this will be referred to as Comparative Example Press Cake 3 Using the same procedure as in Comparative Example 2, with the exceptions that the amount of the 4- acetoacetylamino benzamide was increased from 16 4 parts to 43.8 parts, and the amount of the acetoacetanilide was decreased from 427 5 parts to 405 5 parts, a pigment press cake containing the disazo pigment expressed by Formula (P-1) and the disazo compound expressed by Formula (II-1) was obtained The proportional content of the disazo compound expressed by Formula (II-l) in the solid portion of the resulting pigment press cake was 17%. Hereinbelow, this will be referred to as Comparative Example Press Cake 4. Using the same procedure as in Example 1, with the exceptions that the amount of the 2-acetoacetylamino benzoic acid expressed by Formula (2) was increased from 16.5 parts to 33 parts, the 16.4 parts of the 4- acetoacetylamino benzamide expressed by Formula (3) was replaced by 17.4 parts of the 5-acetoacetylamino benzimidazolone expressed by the following Formula (6) and the amount of the acetoacetanilide was decreased from 414.3 parts to 401.1 parts, a pigment press cake of the disazo pigment composition according to the present invention containing the disazo pigment (C. I pigment Y- 12) expressed by Formula (P-l), the disazo compound (corresponding to a compound expressed by Formula (I)) expressed by Formula (I-1), and the disazo compound (corresponding to a compound expressed by Formula (II)) expressed by Formula (II-2) was obtained The proportional content of the disazo compound expressed by Formula (I-1) and the disazo compound expressed by Formula (II-2) in the solid portion of the resulting disazo pigment composition were respectively 13% and 6%. Hereinbelow, this will be referred to as Example Press Cake 3. Using the same procedure as in Comparative Example 1, with the exceptions that the amount of the 2- acetoacetylamino benzoic acid expressed by Formula (2) was increased from 16 5 parts to 33 parts, and the amount of the acetoacetanilide expressed by Formula (4) was decreased from 427 5 parts to 414 3 parts, a pigment press cake containing the disazo pigment expressed by Formula (P-1) and the disazo compound expressed by Formula (I-1) was obtained The proportional content of the disazo compound expressed by Formula (I-1) in the solid portion of the resulting pigment press cake was 13%. Hereinbelow, this will be referred to as Comparative Example Press Cake 5. Using the same procedure as in Comparative Example 2, with the exceptions that the 16.4 parts of the 4- acetoacetylamino benzamide expressed by Formula (3) was replaced by 17.4 parts of the 5-acetoacetylamino benzimidazolone expressed by Formula (6), a pigment press cake containing the disazo pigment expressed by Formula (P-1) and the disazo compound expressed by Formula (II-2) was obtained. The proportional content of the disazo compound expressed by Formula (II-2) in the solid portion of the resulting pigment press cake was 6%. Hereinbelow, this will be referred to as Comparative Example Press Cake 6 After stirring the pigment slurry obtained in Example 1 for one more hour, the result was regulated to a pH of 8 using a sodium hydroxide solution Then, after adding a sodium solution of rosm (40 parts when converting for rosin), the mixture was heated to 80°C, and after heating for one hour at that temperature, 36 parts of aluminum sulfate were added The reaction mixture was filtered and the filter cake was rinsed, upon which a pigment press cake of the disazo pigment composition according to the present invention containing the disazo pigment expressed by Formula (P-1), an aluminum salt of the disazo compound expressed by Formula (I-1), and the disazo compound expressed by Formula (II-1) was obtained. The proportional content of the aluminum salt of the disazo compound expressed by Formula (I-1) and the disazo compound expressed by Formula (II-l) in the solid portion of the resulting disazo pigment composition were respectively 6% and 6%. Hereinbelow, this will be referred to as Example Press Cake 4. After stirring the pigment slurry obtained in Comparative Example 1 for one more hour, the result was regulated to a pH of 8 using a sodium hydroxide solution. Then, after adding a sodium solution of rosin (40 parts when converting for rosin), the mixture was heated to 80°C, and after heating for one hour at that temperature, 36 parts of aluminum sulfate were added The reaction mixture was filtered and the filter cake was rinsed, upon which a pigment press cake containing the disazo pigment expressed by Formula (P-1) and an aluminum salt of the disazo compound expressed by Formula (I-1) was obtained. The proportional content of the aluminum salt of the disazo compound expressed by Formula (I-1) in the solid portion of the resulting disazo pigment composition was 6% Hereinbelow, this will be referred to as Comparative Example Press Cake 7. After stirring the pigment slurry obtained in Comparative Example 2 for one more hour, the result was regulated to a pH of 8 using a sodium hydroxide solution. Then, after adding a sodium solution of rosin (40 parts when converting for rosin), the mixture was heated to 80°C, and after heating for one hour at that temperature, 36 parts of aluminum sulfate were added The reaction mixture was filtered and the filter cake was rinsed, upon which a pigment press cake containing the disazo pigment expressed by Formula (P-1) and the disazo compound expressed by Formula (II-1) was obtained The proportional content of the disazo compound expressed by Formula (II-1) in the solid portion of the resulting disazo pigment composition was 6% Hereinbelow, this will be referred to as Comparative Example Press Cake 8 Using the same procedure as in Example 1, with the exception that the 16 5 parts of the 2-acetoacetylamino benzoic acid expressed by Formula (2) were replaced by 22.1 parts of the 4-acetoacetylamino benzene sulfonic acid expressed by the following Formula (7) a pigment slurry containing the disazo pigment (C. I. pigment Y-12) expressed by Formula (P-1), the disazo compound (corresponding to a compound expressed by Formula (1)) expressed by the following Formula (1-3) and the disazo compound (corresponding to a compound expressed by Formula (II)) expressed by Formula (II-1) was obtained After stirring this pigment slurry for one more hour, 20 parts of aluminum sulfate were added This mixture was regulated to a pH of 5 using a sodium hydroxide solution, then heated to 80°C The resulting reaction mixture was filtered and the filter cake was rinsed, upon which a pigment press cake of the disazo pigment composition according to the present invention was obtained The proportional content of an aluminum salt of the disazo compound expressed by Formula (I-3) and the compound expressed by Formula (II-1) in the solid portion of the resulting disazo pigment composition were respectively 7% and 6%. Hereinbelow, this will be referred to as Example Press Cake 5. Using the same procedure as in Comparative Example 1, with the exception that the 16 5 parts of the 2- acetoacetylamino benzoic acid expressed by Formula (2) were replaced by 22.1 parts of the 4-acetoacetylamino benzene sulfonic acid expressed by Formula (7), a pigment slurry containing the disazo pigment expressed by Formula (P-1) and the disazo compound expressed by Formula (I-3) was obtained. The proportional content of the disazo compound expressed by Formula (I-3) in the solid portion of the resulting pigment slurry was 7%. After stirring this pigment slurry for one more hour, 20 parts of aluminum sulfate were added This mixture was regulated to a pH of 5 using a sodium hydroxide solution, then heated to 80°C. The resulting reaction mixture was filtered and the filter cake was rinsed to obtain a pigment press cake Hereinbelow, this will be referred to as Comparative Example Press Cake 9. After stirring the pigment slurry obtained in Comparative Example 2 for one more hour, 20 parts of aluminum sulfate were added. This mixture was regulated to a pH of 5 using a sodium hydroxide solution, then heated to 80°C The resulting reaction mixture was filtered and the filter cake was rinsed, upon which a pigment slurry containing the disazo pigment expressed by Formula (P-1) and the disazo compound expressed by Formula (II-1) were obtained. The proportional content of the compound expressed by Formula (II-1) in the solid portion of the resulting pigment slurry was 6%. Hereinbelow, this will be referred to as Comparative Example Press Cake 10. After blending together a press cake of 3,3"- dichlorobenzidine hydrochloride in an amount corresponding to 150 parts of the 3,3"-dichlorobenzidine expressed by Formula (1) with 186 parts of 35º hydrochloric acid, 1500 parts of water and 750 parts of ice, an aqueous solution of 86 parts of sodium nitrite was added under exposure to ice to obtain a tetrazo solution of 3,3"-dichlorobenzidine. 27.5 parts of the 2-acetoacetylamino benzoic acid expressed by Formula (2) were added to this 3,3"- dichlorobenzidine tetrazo solution, then the result was mixed for three hours to obtain a reaction intermediate (A6) . After mixing and dissolving 230 parts of the acetoacet-m-xylidide expressed by the following Formula (8) with 273 2 parts of a 25% sodium hydroxide solution and 3600 parts of water, diluted acetic acid comprising 114 parts of 90% acetic acid and 500 parts of water were dripped therein over a period of one hour, upon which crystals precipitated to obtain reaction intermediate (C61) . Supply pumps were prepared so as to allow the reaction intermediate (A6) to be dripped at a constant speed, and this was dripped into the reaction intermediate (C61) while regulating the fluid temperature to 5-10°C over a period of three hours After the dripping was completed, the result was mixed for one more hour and heated to 80°C. The reaction mixture was filtered and the filter cake was rinsed and dried to obtain a powdered pigment (P1) containing 320 parts of the disazo pigment (C. I pigment Y-13) expressed by the following Formula (P-2) and 83 parts of the disazo compound (corresponding to a compound expressed by Formula (I)) expressed by the following Formula (I-4) : Separately, after blending a press cake of 3,3"- dichlorobenzidine hydrochloride in an amount corresponding to 150 parts of 3,3"-dichlorobenzidine with 186 parts of 35° hydrochloric acid, 1500 parts of water and 750 parts of ice, an aqueous solution of 86 parts of sodium nitrite was added under exposure to ice to obtain a tetrazo solution of 3,3"-dichlorobenzidine 8.2 parts of the 4- acetoacetylamino benzamide expressed by Formula (3) were added to this 3,3"-dichlorobenzidine tetrazo solution, then the result was mixed for three hours to obtain a reaction intermediate (B6) After mixing and dissolving 247 6 parts of the acetoacet-m-xylidide expressed by Formula (8) with 273.2 parts of a 25% sodium hydroxide solution and 3600 parts of water, diluted acetic acid comprising 114 parts of 90% acetic acid and 500 parts of water were dripped therein over a period of one hour, upon which crystals precipitated to obtain reaction intermediate (C62) Supply pumps were prepared so as to allow the reaction intermediate (B6) to be dripped at a constant speed, and this was dripped into the reaction intermediate (C62) while regulating the fluid temperature to 5-10°C over a period of three hours After the dripping was completed, the result was mixed for one more hour and heated to 80°C. The reaction mixture was filtered and the filter cake was rinsed and dried to obtain a powdered pigment (P2) containing 380 parts of the disazo pigment expressed by Formula (P-2) and 25 parts of the disazo compound (corresponding to a compound expressed by Formula (II)) expressed by the following Formula (II-3) The powdered pigment (P1) and the powdered pigment (P2) were mixed to obtain a pigment powder of the disazo pigment composition according to the present invention. Hereinbelow, this will be referred to as Example Powder 6. After blending together a press cake of 3,3"- dichlorobenzidine hydrochloride in an amount corresponding to 150 parts of the 3,3"-dichlorobenzidine expressed by Formula (1) with 186 parts of 35% hydrochloric acid, 1500 parts of water and 750 parts of ice, an aqueous solution of 86 parts of sodium nitrite was added under exposure to ice to obtain a tetrazo solution of 3,3"-dichlorobenzidine. 27.5 parts of the 2-acetoacetylamino benzoic acid expressed by Formula (2) were added to this 3,3"- dichlorobenzidine tetrazo solution, then the result was mixed for three hours to obtain a reaction intermediate (all) After mixing and dissolving 230 parts of the acetoacet-m-xylidide expressed by Formula (8) with 273 2 parts of a 25% sodium hydroxide solution and 3600 parts of water, diluted acetic acid comprising 114 parts of 90% acetic acid and 500 parts of water were dripped therein over a period of one hour, upon which crystals precipitated to obtain reaction intermediate (c11) Supply pumps were prepared so as to allow the reaction intermediate (all) to be dripped at a constant speed, and this was dripped into the reaction intermediate (c11) while regulating the fluid temperature to 5-10°C over a period of three hours. After the dripping was completed, the result was mixed for one more hour and heated to 80°C. The reaction mixture was filtered and the filter cake was rinsed and dried to obtain a powdered pigment containing 320 parts of the disazo pigment expressed by Formula (P-2) and 83 parts of the disazo compound expressed by Formula (1-4) . Hereinbelow, this will be referred to as Comparative Example Powder 11. After blending together a press cake of 3,3"- dichlorobenzidine hydrochloride in an amount corresponding to 150 parts of the 3,3"-dichlorobenzidine expressed by Formula (1) with 186 parts of 35% hydrochloric acid, 1500 parts of water and 750 parts of ice, an agueous solution of 86 parts of sodium nitrite was added under exposure to ice to obtain a tetrazo solution of 3, 3"-dichlorobenzidine 8 2 parts of the 4-acetoacetylamino benzamide expressed by Formula (3) were added to this 3,3"-dichlorobenzidine tetrazo solution, then the result was mixed for three hours to obtain a reaction intermediate (b12). After mixing and dissolving 247.6 parts of the acetoacet-m-xylidide expressed by Formula (8) with 273 2 parts of a 25% sodium hydroxide solution and 3600 parts of water, diluted acetic acid comprising 114 parts of 90% acetic acid and 500 parts of water were dripped therein over a period of one hour, upon which crystals precipitated to obtain reaction intermediate (cl2). Supply pumps were prepared so as to allow the reaction intermediate (bl2) to be dripped at a constant speed, and this was dripped into the reaction intermediate (cl2) while regulating the fluid temperature to 5-10°C over a period of three hours. After the dripping was completed, the result was mixed for one more hour and heated to 80°C The reaction mixture was filtered and the filter cake was rinsed and dried to obtain a powdered pigment containing 380 parts of the disazo pigment expressed by Formula (P-2) and 25 parts of the disazo compound expressed by Formula (II-3) Hereinbelow, this will be referred to as Comparative Example Powder 12. Using the same procedure as in Example 6, with the exceptions that the 27 5 parts of the 2-acetoacetylamino benzoic acid expressed by Formula (2) were replaced by 31.8 parts of the 3-acetoacetylamino-4-chlorobenzoic acid expressed by the following Formula (9) the 230 parts of the acetoacet-m-xylidide were replaced by 232.5 parts of the acetoacet-o-anisidide expressed by the following Formula (10) the 8 2 parts of the 4-acetoacetylamino benzamide expressed by Formula (3) were replaced by 8 7 parts of the 4-acetoacetylamino acetanilide expressed by the following and the 247 6 parts of the acetoacet-m-xylidide expressed by Formula (8) were replaced by 250 3 parts of the acetoacet-o-amsidide expressed by Formula (10), a pigment powder of the disazo pigment composition according to the present invention containing 705 parts of the disazo pigment (C. I. pigment Y-17) expressed by the following Formula (P-3). 91 parts of the disazo compound (corresponding to a compound expressed by Formula (I)) expressed by the following Formula (I-5). and 26 parts of the disazo compound (corresponding to a compound expressed by Formula (II)) expressed by the following Formula (II-5) Using the same procedure as in Comparative Example 11, with the exceptions that the 27.5 parts of the 2- acetoacetylamino benzoic acid expressed by Formula (2) were replaced by 31.8 parts of the 3-acetoacetylamino-4- chlorobenzoic acid expressed by Formula (9) and the 230 parts of the acetoacet-m-xylidide expressed by Formula (8) were replaced by 232.5 parts of the acetoacet-o-anisidide expressed by Formula (10), a powdered pigment containing 322 parts of the disazo pigment expressed by Formula (P-3) and 91 parts of the disazo compound expressed by Formula (1-5) was obtained. Hereinbelow, this will be referred to as Comparative Example Powder 13 Using the same procedure as in Comparative Example 12, with the exceptions that the 8 2 parts of the 4- acetoacetylamino benzamide expressed by Formula (3) were replaced by 8.7 parts of the 4-acetoacetylamino acetanilide expressed by Formula (11) and the 247 6 parts of the acetoacet-m-xylidide expressed by Formula (8) were replaced by 250 3 parts of the acetoacet-o-anisidide expressed by Formula (10), a powdered pigment containing 382 parts of the disazo pigment expressed by Formula (P-3) and 2 6 parts of the disazo compound expressed by Formula (II-5) was obtained. Hereinbelow, this will be referred to as Comparative Example Powder 14. Using the following procedures, the pigment press cakes obtained in Examples 1-5 and Comparative Examples 1- 10 were formed into inks. After adding 300 parts of a lithographic ink varnish (a varnish containing rosin phenolic resin manufactured by Dainippon Ink and Chemical) to a flusher heated to 60°C, a pigment press cake was added in an amount corresponding to 100 parts when converting for the solid portion of the pigment, and the result was flushed while kneading for 30 minutes. After decanting the free water, the flusher temperature was raised to 80°C while vacuum dehydrating in order to remove the water content. After confirming that the water content had been removed, 170 parts of the lithographic ink varnish (a varnish containing rosin phenolic resin manufactured by Dainippon Ink and Chemical) and 30 parts of light oil were gradually added to obtain a test ink The flow ability and laray viscosity of the test inks prepared by the above procedures were measured, and the results are shown in Table 1. With regard to the numerical values for the flow ability, higher values indicate that the lithographic ink has higher flow ability. With regard to the numerical values for the laray viscosity, higher values indicate that the lithographic ink has higher viscosity. It should be noted that the flow ability was evaluated by kneading 1 g of printing ink for 1 minute using a spatula, putting the printing ink on the higher end of a glass plate which is placed with an inclination angle of 70°, waiting for 60 minutes, and measuring the length of the printing ink which has run toward a lower position (the length of the printing ink from the highest end to the lowest end). The results shown in Table 1 demonstrate that the lithographic inks which use the disazo pigment compositions of the present invention obtained in Examples 1-5 have both high flow ability and high viscosity. On the other hand, the conventional disazo pigments obtained in Comparative Examples 1-10 form lithographic inks either having high flow ability but low viscosity or having high viscosity but low flow ability, and they do not have both high flow ability and high viscosity. Using the following procedures, the pigment powders obtained in Examples 6-7 and Comparative Examples 11-14 were formed into inks. Specifically, 300 parts of a lithographic ink varnish heated to 40°C and 100 parts of a pigment powder were put into a stainless steel vessel, then mixed with a lab mixer to prepare a mill base. This mill base was milled by using a triple roll mill to prepare a base ink In the triple roll mill, 170 parts of the lithographic ink varnish and 30 parts of light oil were gradually added to the base ink to prepare a test ink The flow ability and laray viscosity of the test inks prepared by the above procedures were measured, and the results are shown in Table 2 The results shown in Table 2 demonstrate that the lithographic inks which use the disazo pigment compositions of the present invention obtained in Examples 6-7 have both high flow ability and high viscosity. On the other hand, the conventional disazo pigments obtained in Comparative Examples 11-14 form lithographic inks either having high flow ability but low viscosity or having high viscosity but low flow ability, and they do not have both high flow ability and high viscosity WE CLAIM: A process for preparing an offset ink which comprises producing a disazo pigment composition and kneading the composition thus obtained in an offset ink vehicle, being at least one resin selected from a group consisting of rosm phenolic resins, petroleum resins, alkyd resins and dry oil resms thereof and in at least one additive selected from the group consisting of ink solvents, driers, leveling agents and thickeners, wherein the disazo pigment composition comprises the following components (a) to (c) (a) a disazo pigment such as herein described; (b) a disazo compound expressed by the following Formula (I): wherein X and. Y each independently denote a hydrogen atom, a halogen atorn, an alkyl group with 1-4 carbon atoms, an alkoxyl group with 1-4 carbon atoms or an alkoxyca bonyl group having an alkoxyl group with 1-4 carbon atoms, provided that X and Y never simultaneously denote hydrogen atoms, Z denotes a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and Z2 denotes a phenyl group or naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxy! groups and lower alkoxycarbonyl groups, and having a carboxylic acid group and/or a sulfonic acid group which may be a salt of a metal of at least one type selected from the group consisting of alkali earth metals, aluminum, magnesium and zinc: and (c) a disazo compound expressed by the following Formula (II) conventional method, the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) which have been separately Stored, when preparing an ink or a coating, or (f) a method of simultaneously synthesizing a disazo pigment, the disazo compound expressed by general formula (1) and the disazo compound expressed by general formula (II), the above-described method (f) being a method of the following (I) or (11)) (I) a method of obtaining a disazo pigment composition by mixing a reaction intermediate of the tetrazo compound of atomatic diamine expressed by general formula (III) (wherein X and Y each independently represent a hydrogen atom, a halogen atom, an alkyl group having 1-4 carbon atoms an alkoxyl group having 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group having 1-4 carbon atoms, with the exception that X and Y never simultaneously represent hydrogen atoms) and an acetoacetamide compound (hereinafter referred to as coupling component A2) expressed by the following general formula (IV) (wherein Z2 represents a phenyl group or a naphthy] group which may have 1-4 identical 01 different substituent groups selected from the group consisting of lower wherein X and Y each independently denote a hydrogen atom a halogen atom, an alkyl group with 1-4 carbon atoms, an alkoxyl group with 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group with 1-4 carbon atoms, provided that X and Y never simultaneously denote hydrogen atoms, Z1 denotes a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and Z3 denotes a benzimidazolone residue, aphthahmide residue, or a phenyl group or naphthyl group which may have 1 -4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl, and having 1-4 substituent groups selected from the group consisting of carboxylic amide groups, sulfonic amide groups and acetamido groups, the amounts of the above (a) to (c) are such that when total amount of (a) (b) and (c) is 100 % by weight, the amount of (b) is 1 to 20 % by weight, the amount of (c) is 1 to 20 % by weight, and the amount (a) is the balance, the process for producing disazo pigment composition comprising one of the following methods (d) to (f) (d) a method of mixing the disazo compound expressed by general formula (I) and the disazo compound expressed by general formula (II) into a disazo pigment synthesized by a conventional method, then extracting as a press cake pigment or a powder pigment, (e) a method of sequentially mixing in a disazo pigment synthesized by a alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, the phenyl groups or naphthyl groups having 1-4 carboxylic acid groups and/or sulfonic acid groups, the carboxylic acid groups and/or sulfonic acid groups being capable of being salts of at least one type of metal selected from the group consisting of alkali earth metals, aluminum, magnesium and zinc) with a reaction intermediate of the tetrazo compound of atomatic diamine expressed by general formula (III) and an acetoacetamide compound (hereinafter refened to as coupling component A3) expressed by the following general formula (VI) CH3COCH2CONH-Z3 (VI) (wheiein Z3 is a benzimidazolone residue, a phthalimidc residue, or a phenyl group or a naphthyl group which may have 1-4 identical or different substiruent groups selected fiom the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, the phenyl groups 01 naphthyl groups having 1-4 substituent groups selected from the group consisting of carboxylic amides, sulfonic amides and acetamido groups), and adding the mixture, or adding these reaction intermediates without mixing them, to acetoacetamide compound (hereinafter referred to as coupling component A1) expressed by the following general formula (V) CH3COCH2CONH—Z1 • (V) (wherein Z1 represents a phenyl group 01 a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups. halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups) to induce a reaction, or (II) a method of mixing together a pigment composition obtained by reacting a reaction intermediate of the tetrazo compound of aromatic diamine expressed by general formula (III) and coupling component A2 with the coupling component A1, and a pigment composition obtained by reacting a leaction intermediate of the tetrazo compound of aromatic diamine expressed by general formula (III) and coupling component A3 with the coupling component A1. 2. A process for preparing an offset ink as claimed in claim 1, wherein in Formula (I) , X and Y each independently denote a hydrogen atom, a halogen atom, an alkyl group with 1-4 carbon atoms, an alkoxyl group with 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group with 1-4 carbon atoms, provided that X and Y never simultaneously denote hydrogen atoms, Z1 denotes a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and Z2 denotes a phenyl group or naphthyl group which may have 1- 4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and having 1-4 carboxylic acid groups and/or sulfonic acid groups; and in Formula (II), X and Y each independently denote a hydrogen atom, a halogen atom, an alkyl group with 1-4 carbon atoms, an alkoxyl group with 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group with 1-4 carbon atoms, provided that X and Y never simultaneously denote hydrogen atoms, Z1 denotes a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and Z3 denotes a phenyl group or naphthyl group which may have 1- 4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl, and having 1-4 substituent groups selected from the group consisting of carboxylic amide groups, sulfonic amide groups and acetamido groups. A process for preparing an offset ink as claxmed in claim. 1, wherein in Formula (I) and Formula (II), X and Y are each independently a hydrogen atom or a chlorine atom, provided that X and Y are never simultaneously hydrogen atoms, Z1 is a phenyl group which may have 1-2 methyl groups or methoxy groups, Z2 is a phenyl group which may have a hydroxyl group or a chlorine atom and having a carboxylic acid group or a sulfonic acid group which may be an aluminum salt, and Z3 is a benzimidazolone residue, or a phenyl group having a carbamoyl group, an acetamido group or a sulfamoyl group. 4. A process for preparing an offset ink as claimed in claim 1, wherein in Formula (I) and Formula (II), X and Y are each independently a hydrogen atom or a chlorine atom, provided that X and Y are never simultaneously hydrogen atoms, Z1 is a phenyl group which may have 1-2 methyl groups or methoxy groups, Z2 is a phenyl group which may have a hydroxyl group and having a carboxylic acid group which may be an aluminum salt, and Z3 is a phenyl group having a carbamoyl group, or an acetamido group. 5. A process for preparing an offset ink as claimed in any of claims 1-4, wherein the proportional content of the disazo compound expressed by Formula (I) in the solid portion of said disazo pigment composition is within the range of 1% to 20% by weight, and the proportional content of the disazo compound expressed by Formula (II) in the solid portion of said disazo pigment composition is within the range of 1% to 20% by weight. 6. A process for preparing an offset ink as claimed in any of claims 1-4, wherein the total proportional content of the disazo compound expressed by Formula (I) and the disazo compound expressed by Formula (II) in the solid portion of said disazo pigment composition is within the range of 4% to 35% by weight, and their weight ratio (I)/(II) is within the range of 30/70 to 75/25. 7. A process for preparing an offset ink as claimed in any of claims 1-6, wherein said disazo pigment is a disazo pigment expressed by the following Formula (VII): wherein X and Y each independently denote a hydrogen atom, a halogen atom, an alkyl group with 1-4 carbon atoms, an alkoxyl group with 1-4 carbon atoms or an alkoxycarbonyl group having an alkoxyl group with 1-4 carbon atoms, provided that X and Y never simultaneously denote hydrogen atoms, and Z1 denotes a phenyl group or a naphthyl group which may have 1-4 identical or different substituent groups selected from the group consisting of lower alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups. 8. A process for preparing an offset ink as claimed in claim 7, wherein X, Y and Z1 in Formula (I), Formula (II) and Formula (VII) are respectively identical. 9. A process for preparing an offset ink as claimed in claim of claims 1-6, wherein said disazo pigment is at least one disazo pigment selected from the group consisting of pigments having C. I. pigment numbers Y-12, Y-13, Y-14, Y- 17, Y-55, Y-57 and Y-81 10. A process for preparing an offset ink as claimed in any of the preceding claims which comprises producing a dxsazo pigment composition by mixing a disazo pigment such as herein described with disazo compounds of formula (I) and formula (II) as defined in claim 1, simultaneously or sequentially and kneading the composition thus obtained in a printing ink vehicle such as herein described. 11. A process, for preparing an offset ink, substantially as herein described, particularly with reference to the foregoing examples A process for preparing a printing ink comprising a disazo composition in a printing ink vehicle wherein said disazo pigment composition, having both high flow ability and high viscosity, comprising (a) disazo pigment, (b) an asymmetrical disazo compound having a water-soluble group and (c) an asymmetrical disazo compound, which has a substituent group possessing a hydrogen-bonding property.

Full Text

The present invention is divided out of the Indian Patent
Application No 1445CAL97
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a process for
preparing an offset 1 ink, more specifically an offset
ink comprising a disazo pigment composition with
exceptional flow ability and viscosity.
2. Description of Related Art
As examples of conventional methods for improving the
flow ability and transparency of printing inks and
coatings containing disazo pigments, Japanese Patent
Application, Second Publication No Sho 45-11026 teaches a
method for mixing sulfonic acid components into disazo
pigments, United States Patent No 3759731 teaches a
method of using disazo pigments formed by using a mixture
of non-polar coupling components and polar coupling
components having carboxylic acid groups and/or sulfonic
acid groups as coupling components, and United States
Patent No 4894094, United States Patent No 4981489 and
Japanese Patent Application, First Publication No Sho C3-
178169 teach a method of using asymmetric disazo pigment
compositions formed from polar coupling components and
non-polar coupling components.
United States Patent No. 4894094, United States
Patent No. 4981489 and Japanese Patent Application, First
Publication No. 63-178169 disclose methods for selectively
producing asymmetric disazo pigments. In earlier disazo
pigment producing methods, as disclosed in United States
Patent No 37599731, a mixture of common symmetric disazo
pigments and symmetric disazo pigments of
acetoacetanilides having carboxylic acid groups and/or
sulfonic acid groups was produced.
Additionally, as methods for improving the heat
stability (transparency) or color strength, there are
methods of producing disazo pigments by mixing coupling
components, which have substituent groups possessing a
hydrogen-bonding property, with common coupling components.
For example, Japanese Patent Application, Second
Publication No Sho 59-19150 teaches a method of producing
disazo pigments by mixing coupling components having
carboxylic acid amide groups into common coupling
components, Japanese Patent Application, First Publication
No Sho 55-89356 teaches a method of producing disazo
pigments by mixing coupling components having acetylammo
groups into common coupling components, United States
Patent No 4665163 teaches a method of producing disazo
pigments bv mixing coupling components having
benzimidazolone groups into common coupling components,
and Japanese Patent Application, First Publication No Sho
62-197460 teaches a method of producing disazo pigments by
mixing coupling components having sulfonamide groups into
common coupling components. However, the compositions of
the disazo pigments due to these production methods are
believed to be mixed crystals (Japanese Patent Application,
Second Publication No. Sho 59-19150) or mixtures of
symmetric disazo pigments of acetoacetanilides, which have
substituent groups possessing a hydrogen-bonding property,
and common symmetric disazo pigments, and the methods for
producing asymmetric disazo compounds and their effects
have not been conventionally known.
The flow ability, heat stability and color strength
of inks and coatings have been independently resolved in
the conventional art. In particular, while the flow
ability of inks and coatings have been markedly improved
along with the recent trends toward higher speed printing
and coating, the improvements m flow ability have also
resulted m decreases in the viscosity of inks and
coatings Decreases in viscosity can result in various
problems For example, if the viscosity of oil-based inks
decreases, the dot gain increases, the definition of
printed articles is degraded, and an ink flying phenomenon
known as misting occurs upon printing Additionally, with
liquid inks, there is a problem in that bleeding and
mottling occur as a result of permeation and" diffusion of
the ink. Furthermore, in coatings, it is difficult to
retain an appropriate film thickness, and sagging tends to
occur upon coating.
Thus, disazo pigments capable of achieving a high
viscosity while maintaining high flow ability have
heretofore been unknown.
SUMMARY OF THE INVENTION
The present invention has the object of offering a
disazo pigment which has both high, flow ability and high
viscosity when used in inks or coatings, and a printing
ink which has both high flow ability and high viscosity.
The present inventors conducted diligent research for
the purposes of developing a disazo pigment having both
high flow ability and high viscosity, as a result of which
they discovered that a disazo pigment composition obtained
by mixing two types of asymmetric disazo compounds
expressed by the below-given general formulas (I) and (II)
into a disazo pigment, and a printing ink containing this
disazo pigment composition has these properties, thereby
accomplishing the present invention.
The present invention provides a process for
preparing an offset ink which comprises producing a disazo pigment
composition and kneading the composition thus obtained m an
offset ink vehicle being at least one resin selected from a
group consisting of rosin phenolic resins, petroleum resins, alkyd
resins and dry oil resins thereof and in at least one additive
selected from the group consisting of ink solvents, driers,
Leveling agents and thickeners, wherein the disazo pigment
composition comprises the following components (a) to (c)
(a) a disazo pigment, such as herein described
(b) a disazo compound expressed by the following formula (I)
wherein X and Y each independently denote a hydrogen atom,
a halogen atom, an alkyl group with 1-4 carbon atoms, an
alkoxyl group with 1-4 carbon atoms or an alkoxycarbonyl
group having an alkoxyl group with 1-4 carbon atoms,
provided that X and Y never simultaneously denote hydrogen
atoms, Z1 denotes a phenyl group or a naphthyl group which
may have 1-4 identical or different substituent groups
selected from the group consisting of lower alkyl groups,
lower alkoxyl groups, halogen atoms, hydroxyl groups and
lower alkoxycarbonyl groups, and Z2 denotes a phenyl group
or naphthyl group which may have 1-4 identical or
different substituent groups selected from the group
consisting of lower alkyl" groups, lower alkoxyl groups,
halogen atoms, hydroxyl groups and lower alkoxycarbonyl
groups, and having a carboxylic acid group and/or a
sulfonic acid group which may be a salt of a metal of at
least one type selected from the group consisting of
alkali earth metals, aluminum, magnesium and zinc, and (c)
a disazo compound expressed by the following Formula (II)
wherein X and Y each independently denote a hydrogen atom,
a halogen atom, an alkyl group with 1-4 carbon atoms, an
alkoxyl group with 1-4 carbon atoms or an alkoxycarbonyl
group having an alkoxyl group with 1-4 carbon atoms,
provided that X and Y never simultaneously denote hydrogen
atoms, Z1 denotes a phenyl group or a naphthyl group which
may have 1-4 identical or different substituent groups
selected from the group consisting of lower alkyl groups,
lower alkoxyl groups, halogen atoms, hydroxyl groups and
lower alkoxycarbonyl groups, and Z3 denotes a
benzimidazolone residue, a phthalimide residue, or a
phenyl group or naphthyl group which may have 1-4
identical or different substituent groups selected from
the group consisting of lower alkyl groups, lower alkoxyl
groups, halogen atoms, hydroxyl groups and lower
alkoxycarbonyl, and having 1-4 substituent groups selected
from the group consisting of carboxylic amide groups,
sulfonic amide groups and acetainido groups
the amounts of the above (a) to (c) are such that when totaJ amount of (a)
(b) and (c) is 100 % by weight, the amount of (b) is 1 to 20 % by weight, the
amount of (c) is 1 to 20 % by weight, and the amount (a) is the balance,
the piocess comprising one of the following methods (d) to (f)
(d) a method of mixing the disazo compound expressed by general formula
(I) and the disazo compound expressed by general formula (II) into a disazo
pigment synthesized by a conventional method, then extracting as a press cake
pigment or a powdei pigment,
(e) a method of sequentially mixing in a disazo pigment synthesized by a
conventional method, the disazo compound expressed by general formula (I) and
the disazo compound expiessed by general formula (II) which have been separately
stored, when preparing an ink or a coating, or
(f) a method of simultaneously synthesizing a disazo pigment, the disazo
compound expiessed by general formula (1) and the disazo compound expressed by
genera] formula (II),
the above-described method (f) being a method of the following (i) or (h)
(l) a method of obtaining a disazo pigment composition by mixing a
reaction intermediate of the tetrazo compound of aromatic diamine expressed by
general formula (III)
(wherein X and Y each independently represent a hydrogen atom, a halogen atom,
an alky] group having 1-4 caibon atoms an alkoxyl group having 1-4 carbon atoms
or an alkoxycarbonyl group having an alkoxyl group having 1 -4 carbon atoms, with
the exception that X and Y never simultaneously represent hydrogen atoms) and an
acetoacetamide compound (hereinafter refened to as coupling component A2)
expressed by the following general formula (IV)
CH3COCH2CONH- Z2 •• (IV)
(wherein Z2 represents a phenyl group or a naphthy] group which may have 1-4
identical or different substituent groups selected from the group consisting of lower
alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower
alkoxycarbonyl groups, the phenyl groups or naphtbyl groups having 1-4 carboxylic
acid groups and/or sulfonic acid groups; the carboxylic acid groups and/or sulfonic
acid groups being capable of being salts of at least one type of meta! selected from
the group consisting of alkali earth metals, aluminum, magnesium and zinc) with a
reaction intermediate of the tetrazo compound of aromatic diamine expressed by
general formula (III) and an acetoacetamide compound (hereinafter referred to as
coupling component A3) expressed by the following geneial formula (VI)
CH3COCH2CONH—Z3 .. (VI)
(wherein Z3 is a benzimidazolone residue, a phthalimide residue, or a phenyl group
or a naphthy) group which may have 1-4 identical or different substituent groups
selected from the group consisting of lower alkyl groups, lower alkoxyl groups,
halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, the phenyl
groups or naphthyl groups haying 1-4 substituent groups selected from the group
consisting of carboxylic amides, sulfonic amides and acetamido groups), and adding
the mixture, or adding these reaction intermediates without mixing them, to
acetoacetamide compound (hereinafter referred to as coupling component A1)
expressed by the following general formula (V)
CH3COCH2CONH—Z1 (V)
(wherein Z1 represents a phenyl group or a naphthyl group which may have 1-4
identical or different substituent groups selected from the group consisting of lower
alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower
alkoxycarbonyl groups) to induce a reaction, or
(n) a method of mixing together a pigment composition obtained by
reacting a reaction inteimediate of the tetrazo compound of aromatic diamine
expressed by general formula (III) and coupling component A2 with the coupling
component A1, and a pigment composition obtained by reacting a reaction
intermediate of the tetrazo compound of aromatic diamine expressed by general
formula (III) and coupling component A3 with the coupling component A1
The invention also provides for a process for preparing a
printing ink which comprises producing a disazo pigment
composition by mixing a disazo pigment such as herein
described with disazo compounds of formula (I) and
formula (II)as defined hereinabove, simultaneously or
sequentially and kneading the composition thus obtained
in a printing ink vehicle such as herein described
The disazo pigment composition of the present
invention is capable of offering a lithographic ink having
high flow ability so as to be able to handle high speed
printing, and having high viscosity so as not to increase
the dot gain, degrade the definition of printed articles
or cause an ink flying phenomenon known as misting when
printing.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
The disazo compound expressed by the general formula
(I) used in the present invention is capable of being
produced, for example, according to the following
production method.
That is, a method of producing the disazo compound
expressed by general formula (I) produced by reacting a
tetrazo compound formed by inducing a tetrazo reaction by
a conventional method on the aromatic diamine expressed by
the following general formula (III)
(wherein X and Y each independently represent a hydrogen
atom, a nalogen atom, an alkyl group having 1-4 carbon
atoms, an alkoxyl group having 1-4 carbon atoms or an
alkoxycarbonyl group having an alkoxyl group having 1-4
carbon atoms, with the exception that X and Y never
simultaneously represent hydrogen atoms) with an
acetoacetamide compound (hereinafter referred to as
coupling component A2) expressed by the following general
formula (IV)
CH3COCH2CONH—Z2 .. (IV)
(wherein Z2 represents a phenyl group or a naphthyl group
which may have 1-4 identical or different substituent
groups selected from the group consisting of lower alkyl
groups, lower alkoxyl groups, halogen atoms, hydroxyl
groups and lower alkoxycarbonyl groups, the phenyl groups
or naphthyl groups having 1-4 carboxylic acid groups
and/or sulfonic acid groups, the carboxylic acid groups
and/or sulfonic acid groups being capable of being salts
of at least one type of metal selected from the group
consisting of alkali earth metals, aluminum, magnesium and
zinc), then inducing a reaction between this reaction
product and the acetoacetamide compound (hereinafter
referred to as coupling component A1) expressed by the
following general formula (V)
CH3COCH2CONH— Z1 (V)
(wherein Z1 represents a phenyl group or a naphthyl group
which may have 1-4 identical or different substituent
groups selected from the group consisting of lower alkyl
groups, lower alkoxyl groups, halogen atoms, hydroxyl
groups and lower alkoxycarbonyl groups) to produce the
disazo compound expressed by general formula (I).
The disazo compound expressed by the general formula
(I) used in the present invention may be such that the
carboxylic acid groups and/or sulfonic acid groups thereof
are salts of metals selected from the group consisting of
alkali earth metals, aluminum, magnesium and zinc.
The above-mentioned metal salts can be water-soluble
metal salts of metals selected from the group consisting
of alkali earth metals, aluminum, magnesium and zinc,
preferably water-soluble metal salts of aluminum, in the
form of aqueous solutions if needed, added to a suspension
solution of a disazo compound expressed by the general
formula (I) to induce a reaction, then the result can be
filtered and rinsed. Here, examples of water-soluble metal
salts are calcium chloride, strontium chloride, strontium
nitrate, barium chloride, aluminum chloride, aluminum
sulfate, magnesium chloride and zinc chloride
Among the disazo compounds expressed by the general
formula (I), the disazo compounds should preferably be
such that X and Y in the formulas are each independently a
hydrogen atom or a chlorine atom (with the exception that
X and Y are not both hydrogen atoms), Z1 is a phenyl group
which may have 1-2 methyl groups or methoxy groups, Z2 is a
phenyl group which may have a hydroxyl group or a chlorine
atom, wherein the phenyl group has a carboxylic acid group
or a sulfonic acid group. Furthermore, it is especially
preferable that X and Y in the formulas are each
independently a hydrogen atom or a chlorine atom (with the
exception that X and Y are not both hydrogen atoms), Z1 is
a phenyl group which may have 1-2 methyl groups or methoxy
groups, Z2 is a phenyl group which may have a hydroxyl
group and has a carboxylic acid group (or an aluminum
salt).
The disazo compound expressed by general formula (II)
used in the present invention may, for example, be
produced according to the production method described
below
That is, a method of producing the disazo compound
expressed by general formula (II) produced by reacting a
tetrazo compound formed by inducing a tetrazo reaction by
a conventional method on the aromatic diamine expressed by
the above-given general formula (III) with an
acetoacetamide compound (hereinafter referred to as
coupling component A3) expressed by the following general
formula (VI)
CH3COCH2CONH—Z3 (VI)
(wherein Z3 is a benzimidazolone residue, a phthalimide
residue, or a phenyl group or a naphthyl group which may
have 1-4 identical or different substituent groups
selected from the group consisting of lower alkyl groups,
lower alkoxyl groups, halogen atoms, hydroxyl groups and
lower alkoxycarbonyl groups, the phenyl groups or naphthyl
groups having 1-4 substituent groups selected from the
group consisting of carboxylic amides, sulfonic amides and
acetamido groups), then inducing a reaction between this
reaction product and the acetoacetamide compound
(hereinafter referred to as coupling component A1)
expressed by the following general formula (V).
CH3COCH2CONH—Z1 - (V)
(wherein Z1 represents a phenyl group or a naphthyl group
which may have 1-4 identical or different substituent
groups selected from the group consisting of lower alkyl
groups, lower alkoxyl groups, halogen atoms, hydroxyl
groups and lower alkoxycarbonyl groups) to produce the
disazo compound expressed by general formula (II)
Among the disazo compounds expressed by the general
formula (II), the disazo compounds should preferably be
such that X and Y in the formulas are each independently a
hydrogen atom or a chlorine atom (with the exception that
X and y are not both hydrogen atoms), Z1 is a phenyl group
which may have 1-2 methyl groups or methoxy groups, Z3 is a
benzimidazolone residue, or a phenyl group having a
carbamoyl group, an acetamido group or a sulfamoyl group.
Furthermore, it is especially preferable that X and Y in
the formulas are each independently a hydrogen atom or a
chlorine atom (with the exception that X and Y are not
both hydrogen atoms), Z1 is a phenyl group which may have
1-2 methyl groups or methoxy groups, Z3 is a phenyl group
having a carbamoyl group, or an acetamido group.
As examples of aromatic diamines expressed by general
formula (III), there are 3,3"-dichlorobenzidine, 3,3"-
dibromobenzidme, 2,2"-dichlorobenzidine, 3,3"-
dimethoxybenzidme, 3,3"-dimethylbenzidme, 3,3", 6,6"-
tetrachlorobenzidme, 3,3" -dimethoxycarbonylbenzidme,
3, 3"-dibutylbenzidme and 3, 3 "-dibutoxycarbonylbenzidme
As examples of acetoacetamide compounds expressed by
general formula (IV), 2-acetoacetylaminobenzene sulfonic
acid, 3-acetoacetylaminobenzene sulfonic acid, 4-
acetoacetylaminobenzene sulfonic acid, 2-acetoacetylamino-
5-methylbenzene sulfonic acid, 2-acetoacetylamino-4-
chloro-5-methylbenzene sulfonic acid, 2-acetoacetylammo-
5-chloro-4-methylbenzene sulfonic acid, 4-
acetoacetylamino-2,3-dichlorobenzene sulfonic acid, 2-
acetoacetylaminonaphthalene sulfonic acid,
acetoacetylaminomethane sulfonic acid,
acetoacetylaminoethane sulfonic acid, 2-acetoacetylamino
benzoic acid, 3-acetoacetylamino benzoic acid, 4-
acetoacetylamino benzoic acid, 3-acetoacetylamino-4-chloro
benzoic acid, 2-acetoacetylamino-5-bromo benzoic acid, 3-
acetoacetylamino-4-methoxy benzoic acid, 2-
acetoacetylamino-5-chloro benzoic acid, 2-acetoacetylamino
terephthalic acid, 3-acetoacetylamino lsophthalic acid, 4-
acetoacetylamino-2-hydroxy benzoic acid and 5-
acetoacetylamino-2-hydroxy benzoic acid.
As examples of acetoacetamides expressed by the
general formula (V), there are acetoacetanilide,
acetoacet-o-toluidide, acetoacet-p-toluidide, acetoacet-m-
xylidide, acetoacet-o-chloroanilide, acetoacet-p-
bromoanilide, acetoacet-o-anisidide, acetoacet-p-anisidide,
acetoacet-4-chloro-2,5-dimetoxyanilide, acetoacet-4-
ethylanilide and 1-acetoacetylaminonaphthalene
As examples of acetoacetamide compounds expressed by
the general formula (VI), there are 4-acetoacetylamino
benzamide, 4-acetoacetylamino benzene sulfonamide, 3-
acetoacetylammo-4-chloro benzamide, 3-acetoacetylammo-4-
methyl benzamide, 4-acetoacetylammo acetanilide, 5-
acetoacetylamino benzimidazolone and 4-acetoacetylamino
phthalimide
As examples of the disazo pigment usea in the present
invention, there are the disazo pigments expressed by the
following general formula (VII)
(wherein X and Y each independently represent a hydrogen
atom, a halogen atom, an alkyl group having 1-4 carbon
atoms, an alkoxyl group having 1-4 carbon atoms or an
alkoxycarbonyl group having an alkoxyl group having 1-4
carbon atoms, with the exception that X and Y never
simultaneously represent hydrogen atoms, and Z1 represents
a phenyl group or a naphthyl group which may have 1-4
identical or different substituent groups selected from
the group consisting of lower alkyl groups, lower alkoxyl
groups, halogen atoms, hydroxyl groups and lower
alkoxycarbonyl groups)
Additionally, examples of the disazo pigment used in
the present invention, expressed by C I pigment number,
are Y-12, Y-13, Y-14, Y-16, Y-17, Y-55, Y-57, Y-81, Y-83,
Y113, 0-15 and 0-16, among which Y-12, Y-13, Y-14, Y-17,
Y-55, Y-57 and Y-81 are most preferable
The disazo pigment composition of the present
invention containing a disazo pigment, the disazo compound
expressed by general formula (I) and the disazo compound
expressed by general formula (II), can be produced by the
following methods
(a) a method of mixing the disazo compound expressed by
general formula (I) and the disazo compound expressed by
general formula (II) into a disazo pigment synthesized by
a conventional method, then extracting as a press cake
pigment or a powder pigment;
(b) a method of sequentially mixing in a disazo pigment
synthesized by a conventional method, the disazo compound
expressed by general formula (I) and the disazo compound
expressed by general formula (II) which have been
separately stored, when preparing an ink or a coating; or
(c) a method of simultaneously synthesizing a disazo
pigment, the disazo compound expressed by general formula
(I) and the disazo compound expressed by general formula
(II).
More specifically, the above-described method (c) is
a method of obtaining a disazo pigment composition by
mixing a reaction intermediate of the tetrazo compound of
aromatic diamine expressed by general formula (III) and
coupling component A2 with a reaction intermediate of the
tetrazo compound of aromatic diamine expressed by general
formula (III) and coupling component A3, and adding the
mixture, or adding these reaction intermediates without
mixing them, to coupling component A1 to induce a reaction
Alternatively, it is also possible to use a method of
mixing together a pigment composition obtained by reacting
a reaction intermediate of the tetrazo compound of
aromatic diamine expressed by general formula (III) and
coupling component A2 with the coupling component A1, and
a pigment composition obtained by reacting a reaction
intermediate of the tetrazo compound of aromatic diamine
expressed by general formula (III) and coupling component
A3 with the coupling component A1.
In the above-described method (c), the ratio of use
of coupling component A2, coupling component A3 and
coupling component Al must be appropriately selected so
that the content of the disazo compound expressed by
general formula (I) and the disazo compound expressed by
general formula (II) in the solid portion of the disazo
pigment composition of the present invention is within the
below-described range.
Among the above-mentioned methods (a)- (c), method (c)
is especially preferable because it is easily capable of
resulting in a disazo pigment composition wherein the
disazo compound expressed by general formula (I) and the
disazo compound expressed by general formula (II) are
finely dispersed in the disazo pigment.
When producing the disazo pigment composition of the
present invention, it is preferable that the disazo
pigment, the disazo compound expressed by general formula
(I) and the disazo compound expressed by general formula
(II) have a common skeletal structure, for example, by
selecting the disazo pigment expressed by general formula
(VII), the disazo compound expressed by general formula
(I) and the disazo compound expressed by general formula
(II) such that X, Y and Z1 are identical in all of the
general formulas, due to the high dispersion effects which
can be obtained.
The proportional content of the disazo pigment, the
disazo compound expressed by general formula (I) and the
disazo compound expressed by general formula (II) in the
disazo pigment composition of the present invention is
important in order to obtain a disazo pigment composition
having both high flow ability and high viscosity. The
proportional content of the disazo compound expressed by
general formula (I) in the solid portion of the disazo
pigment composition of the present invention should
preferably be within the range of 0.5--49% by weight, and
more preferably in the range of 1-20% by weight when
considering the raw material cost When the proportional
content of the disazo compound expressed by general
formula (I) in the disazo pigment composition is less than
0.5% by weight, the viscosity of the resulting ink or
coating tends to become reduced, while if more than 49% by
weight, the flow ability of the resulting ink or coating
tends to become reduced Additionally, the proportional
content of the disazo compound expressed by general
formula (II) in the solid portion of the disazo pigment
composition of the present invention should preferably be
within the range of 0.5-49% by weight, and more preferably
in the range of 1-20% by weight when considering the raw
material cost. When the proportional content of the disazo
compound expressed by general formula (II) in the disazo
pigment composition is less than 0.5% by weight, the flow
ability of the resulting ink or coating tends to become
reduced, while if more than 49% by weight, the viscosity
of the resulting ink or coating tends to become reduced.
In the solid portion of the disazo pigment
composition of the present invention, the total
proportional content of the disazo compound expressed by
general formula (I) and the disazo compound expressed by
general formula (II) should preferably be within the range
of 1-49% by weight, and more preferably within the range
of 4-35% by weight Additionally, the weight ratio
(I)/(II) of the disazo compound expressed by general
formula (I) and the disazo compound expressed by general
formula (II) should preferably be within the range of
20/80-80/20, and more preferably within the range of
30/70-75/25
The disazo pigment composition of the present
invention can be kneaded into a printing ink vehicle and
used as a printing ink
Offset ink vehicles are composed, for example, of
resins such as rosin phenolic resins, petroleum resins,
alkyd resins and dry oil resins thereof, vegetable oils
such as Tinseed oil, tung oil and soybean oil if needed,
and solvents such as n-paraffin, lsoparaffin, aromatic
hydrocarbons solvent, naphthene and a-olefm, of which the
proportional mixture in parts by weight should preferably
be within the range of resin vegetable oil solvent =
20-50 0-30 10-60.
The offset ink vehicle containing the disazo pigment
composition of the present invention can be formed into a
printing ink by suitably blending in commonly known
additives such as ink solvents, driers, levelling agents
and thickeners as needed.
Additionally, gravure ink vehicles are composed of
resin mixtures such as gum rosin, wood rosin, tall oil
rosin, coal rosin, lime rosin, rosin ester, maleic acid
resin, gilsonite, dammar, shellac, polyamide resin, vinyl
resin, nitrocellulose, cyclized rubber, ethyl cellulose,
cellulose acetate, ethylene-vinyl acetate copolymer resin,
urethane resin, polyester resin and alkyd resin, and
solvents such as n-hexane, toluene, ethanol, methanol,
acetone, ethyl acetate, ethyl lactate, cellsolve,
diacetone alcohol, chlorobenzole, ethyl ether, acetal
ethyl ether, ethyl acetoacetate and butyl acetate
cellsolve, wherein the mixture proportion in parts by
weight should preferably be within the range of resin
mixture solvent = 10-50 30-80.
The gravure ink vehicle containing the disazo pigment
composition of the present invention can be formed into a
printing ink by suitably blending in extender pigments
such as barium sulfate, barium carbonate, calcium
carbonate, gypsum, alumina white, clay, silica, silica
white, talc, calcium silicate and sedimentary magnesium
carbonate as needed, as well as plasticizers, anti-UV
agents, anti-oxidants and anti-static agents as adjuvants.
EXAMPLES
Hereinbelow, the present invention shall be explained
in further detail by means of comparative examples and
test examples, however, the present invention should not
be construed as being limited by these examples
Additionally, the "parts" and "%" as used in the following
examples are always by weight where there are no
statements to the contrary.

After blending together a press cake of 3,3"-
dichlorobenzidine hydrochloride in an amount corresponding
to 150 parts of the 3, 3"-dichlorobenzidme expressed by
the following Formula (1)
with 186 parts of 35% hydrochloric acid, 1500 parts of
water and 750 parts of ice, an aqueous solution of 86
parts of sodium nitrite was added under exposure to ice to
obtain a tetrazo solution of 3, 3"-dichlorobenzidine 16.5
parts of the 2-acetoacetylamino benzoic acid expressed by
the following Formula (2)

were added to this 3, 3"-dichlorobenzidme tetrazo solution,
then the result was mixed for three hours to obtain a
reaction intermediate (A1)
Separately, after a press cake of 3,3"-
dichlorobenzidine hydrochloride in an amount corresponding
to 150 parts of the 3,3"-dichlorobenzidme expressed by
following Formula (1) was blended with 186 parts of 35%
hydrochloric acid, 1500 parts of water and 750 parts of
ice, an aqueous solution of 86 parts of sodium nitrite was
added under exposure to ice to obtain a tetrazo solution
of 3,3"-dichlorobenzidme. 16 4 parts of the 4-
acetoacetylamino benzamide expressed by the following
Formula (3)
were added to this 3, 3"-dichlorobenzidine tetrazo solution,
then the result was mixed for three hours to obtain a
reaction intermediate (B1)
Next, after blending together and dissolving 414.3
parts of the acetoacetanilide expressed by the following
Formula (4)•
with 54 6.4 parts of a 25% sodium hydroxide solution and
7200 parts of water, diluted acetic acid comprising 228
parts of 90% acetic acid and 1000 parts of water were
dripped therein over a period of one hour, upon which
crystals precipitated to obtain reaction intermediate (C1).
Supply pumps were prepared so as to allow the
reaction intermediate (A1) and the reaction intermediate
(B1) to be dripped at a constant speed, and these were
dripped into the reaction intermediate (C1) while
regulating the fluid temperature to 5-10°C over a period
of three hours to obtain a pignent slurry. After the
dripping was completed, the result was mixed for one more
hour and heated to 80°C. The reaction mixture was filtered
and the filter cake was rinsed to obtain a pigment press
cake of the disazo pigment composition of the present
invention. Hereinbelow, this will be referred to as
Example Press Cake 1.
After drying a portion of the Example Press Cake 1
and taking FD/MS measurements, peaks caused by molecular
ions were present at m/z = 628, m/z = 672 and m/z = 671,
thus confirming that the Example Press Cake 1 contained
the disazo pigment (C I pigment Y-12) expressed by the
following Formula (P-1).
the disazo compound (corresponding to a compound expressed
by Formula (1)) expressed by the following Formula (I-1)
and the disazo compound (corresponding to a compound
expressed by Formula (II)) expressed by the following
Formula (II-1)
Additionally, the proportional content of the disazo
compound expressed by Formula (I-1) and the disazo
compound expressed by Formula (II-1) in the solid portion
of the resulting disazo pigment composition were
respectively 6% and 6%.

After blending together a press cake of 3,3"-
dichlorobenzidine hydrochloride in an amount corresponding
t" 300 parts of the 3,3"-dichlorobenzidine expressed by
Formula (1) with 372 parts of 35% hydrochloric acid, 3000
parts of water and 1500 parts of ice, an aqueous solution
of 172 parts of sodium nitrite was added under exposure to
ice to obtain a tetrazo solution of 3,3"-dichlorobenzidine,
16 5 parts of the 2-acetoacetylamino benzoic acid
expressed by Formula (2) were added to this 3,3"-
dichlorobenzidine tetrazo solution, then the result was
mixed for three hours to obtain a reaction intermediate
(a1) .
Next, after blending together and dissolving 427.5
parts of the acetoacetanilide expressed by Formula (4)
with 546.4 parts of a 25% sodium hydroxide solution and
7200 parts of water, diluted acetic acid comprising 228
parts of 90% acetic acid and 1000 parts of water were
dripped therein over a period of one hour, upon which
crystals precipitated to obtain reaction intermediate (c1).
Supply pumps were prepared so as to allow the
reaction intermediate (al) to be dripped at a constant
speed, and this was dripped into the reaction intermediate
(c1) while regulating the fluid temperature to 5-10°C over
a period of three hours to obtain a pigment slurry. After
the dripping was completed, the result was mixed for one
more hour and heated to 80°C. The reaction mixture was
filtered and the filter cake was rinsed to obtain a
pigment press cake containing tne disazo pigment expressed
by Formula (P-1) and the disazo compound expressed by
Formula (I-1) The proportional content of the disazo
compound expressed by Formula (I-l) in the solid portion
of the resulting pigment press cake was 6%. Hereinbelow,
this will be referred to as Comparative Example Press Cake
1

After blending together a press cake of 3,3"-
dichlorobenzidine hydrochloride in an amount corresponding
to 300 parts of the 3,3"-dichlorobenzidine expressed by
Formula (1) with 372 parts of 35% hydrochloric acid, 3000
parts of water and 1500 parts of ice, an agueous solution
of 172 parts of sodium nitrite was added under exposure to
ice to obtain a tetrazo solution of 3,3"-dichlorobenzidine.
16.4 parts of the 4-acetoacetylamino benzamide expressed
by Formula (3) were added to this 3,3" -dichlorobenzidine
tetrazo solution, then the result was mixed for three
hours to obtain a reaction intermediate (b2)
Next, after blending together and dissolving 427 5
parts of the acetoacetanilide expressed by Formula (4)
with 546 4 parts of a 25% sodium hydroxide solution and
7200 parts of water, diluted acetic acid comprising 228
parts of 90% acetic acid and 1000 parts of water were
dripped therein over a period of one hour, upon which
crystals precipitated to obtain reaction intermediate (c2)
Supply pumps were prepared so as to allow the
reaction intermediate (b2) to be dripped at a constant
speed, and this was dripped into the reaction intermediate
(c2) while regulating the fluid temperature to 5-10°C over
a period of three hours to obtain a pigment slurry. After
the dripping was completed, the result was mixed for one
more hour and heated to 80°C The reaction mixture was
filtered and the filter cake was rinsed to obtain a
pigment press cake containing the disazo pigment expressed
by Formula (P-1) and the disazo compound expressed by
Formula (II-1). The proportional content of the disazo
compound expressed by Formula (II-1) in the solid portion
of the resulting pigment press cake was 6%. Hereinbelow,
this will be referred to as Comparative Example Press Cake
2.

Using the same procedure as in Example 1, with the
exceptions that the 16.5 parts of the 2-acetoacetylamino
benzoic acid expressed by Formula (2) were replaced by
35.4 parts of the 5-acetoacetylamino-2-hydroxy benzoic
acid expressed by the following Formula (5)

the amount of the 4-acetoacetylamino benzamide expressed
by Formula (3) was increased from 16.4 parts to 43 8 parts
and the amount of the acetoacetanilide expressed by
Formula (4) was decreased from 414.3 parts to 379.1 parts,
a pigment press cake of the disazo pigment composition
according to the present invention was obtained.
Hereinbelow, this will be referred to as Example Press
Cake 2.
After drying a portion of the Example Press Cake 2
and taking FD/MS measurements, peaks caused by molecular
ions were present at m/z = 628, m/z = 688 and m/z = 671,
thus confirming that the Example Press Cake 2 contained
the disazo pigment (C. I. pigment Y-12) expressed by
Formula (P-1), the disazo compound (corresponding to a
compound expressed by Formula (1)) expressed by the
following Formula (1-2)
and the disazo compound (corresponding to a compound
expressed by Formula (II)) expressed by Formula (II-1).
Additionally, the proportional content of the disazo
compound expressed by Formula (1-2) and the disazo
compound expressed by Formula (II-1) in the solid portion
of the resulting disazo pigment composition were
respectively 13% and 17%.

Using the same procedure as in Comparative Example 1,
with the exceptions that the 16.5 parts of the 2-
acetoacetylamino benzoic acid expressed by Formula (2)
were replaced by 35.4 parts of the 5-acetoacetylamino-2-
hydroxy benzoic acid expressed by Formula (5), and the
amount of the acetoacetanilide was decreased from 427.5
parts to 414.3 parts, a pigment press cake containing the
disazo pigment expressed by Formula (P-1) and the disazo
compound expressed by Formula (I-2) was obtained. The
proportional content of the disazo compound expressed by
Formula (I-2) in the solid portion of the resulting
pigment press cake was 13%. Hereinbelow, this will be
referred to as Comparative Example Press Cake 3

Using the same procedure as in Comparative Example 2,
with the exceptions that the amount of the 4-
acetoacetylamino benzamide was increased from 16 4 parts
to 43.8 parts, and the amount of the acetoacetanilide was
decreased from 427 5 parts to 405 5 parts, a pigment press
cake containing the disazo pigment expressed by Formula
(P-1) and the disazo compound expressed by Formula (II-1)
was obtained The proportional content of the disazo
compound expressed by Formula (II-l) in the solid portion
of the resulting pigment press cake was 17%. Hereinbelow,
this will be referred to as Comparative Example Press Cake
4.

Using the same procedure as in Example 1, with the
exceptions that the amount of the 2-acetoacetylamino
benzoic acid expressed by Formula (2) was increased from
16.5 parts to 33 parts, the 16.4 parts of the 4-
acetoacetylamino benzamide expressed by Formula (3) was
replaced by 17.4 parts of the 5-acetoacetylamino
benzimidazolone expressed by the following Formula (6)
and the amount of the acetoacetanilide was decreased from
414.3 parts to 401.1 parts, a pigment press cake of the
disazo pigment composition according to the present
invention containing the disazo pigment (C. I pigment Y-
12) expressed by Formula (P-l), the disazo compound
(corresponding to a compound expressed by Formula (I))
expressed by Formula (I-1), and the disazo compound
(corresponding to a compound expressed by Formula (II))
expressed by Formula (II-2)
was obtained The proportional content of the disazo
compound expressed by Formula (I-1) and the disazo
compound expressed by Formula (II-2) in the solid portion
of the resulting disazo pigment composition were
respectively 13% and 6%. Hereinbelow, this will be
referred to as Example Press Cake 3.

Using the same procedure as in Comparative Example 1,
with the exceptions that the amount of the 2-
acetoacetylamino benzoic acid expressed by Formula (2) was
increased from 16 5 parts to 33 parts, and the amount of
the acetoacetanilide expressed by Formula (4) was
decreased from 427 5 parts to 414 3 parts, a pigment press
cake containing the disazo pigment expressed by Formula
(P-1) and the disazo compound expressed by Formula (I-1)
was obtained The proportional content of the disazo
compound expressed by Formula (I-1) in the solid portion
of the resulting pigment press cake was 13%. Hereinbelow,
this will be referred to as Comparative Example Press Cake
5.

Using the same procedure as in Comparative Example 2,
with the exceptions that the 16.4 parts of the 4-
acetoacetylamino benzamide expressed by Formula (3) was
replaced by 17.4 parts of the 5-acetoacetylamino
benzimidazolone expressed by Formula (6), a pigment press
cake containing the disazo pigment expressed by Formula
(P-1) and the disazo compound expressed by Formula (II-2)
was obtained. The proportional content of the disazo
compound expressed by Formula (II-2) in the solid portion
of the resulting pigment press cake was 6%. Hereinbelow,
this will be referred to as Comparative Example Press Cake
6

After stirring the pigment slurry obtained in Example
1 for one more hour, the result was regulated to a pH of 8
using a sodium hydroxide solution Then, after adding a
sodium solution of rosm (40 parts when converting for
rosin), the mixture was heated to 80°C, and after heating
for one hour at that temperature, 36 parts of aluminum
sulfate were added The reaction mixture was filtered and
the filter cake was rinsed, upon which a pigment press
cake of the disazo pigment composition according to the
present invention containing the disazo pigment expressed
by Formula (P-1), an aluminum salt of the disazo compound
expressed by Formula (I-1), and the disazo compound
expressed by Formula (II-1) was obtained. The proportional
content of the aluminum salt of the disazo compound
expressed by Formula (I-1) and the disazo compound
expressed by Formula (II-l) in the solid portion of the
resulting disazo pigment composition were respectively 6%
and 6%. Hereinbelow, this will be referred to as Example
Press Cake 4.

After stirring the pigment slurry obtained in
Comparative Example 1 for one more hour, the result was
regulated to a pH of 8 using a sodium hydroxide solution.
Then, after adding a sodium solution of rosin (40 parts
when converting for rosin), the mixture was heated to 80°C,
and after heating for one hour at that temperature, 36
parts of aluminum sulfate were added The reaction mixture
was filtered and the filter cake was rinsed, upon which a
pigment press cake containing the disazo pigment expressed
by Formula (P-1) and an aluminum salt of the disazo
compound expressed by Formula (I-1) was obtained. The
proportional content of the aluminum salt of the disazo
compound expressed by Formula (I-1) in the solid portion
of the resulting disazo pigment composition was 6%
Hereinbelow, this will be referred to as Comparative
Example Press Cake 7.

After stirring the pigment slurry obtained in
Comparative Example 2 for one more hour, the result was
regulated to a pH of 8 using a sodium hydroxide solution.
Then, after adding a sodium solution of rosin (40 parts
when converting for rosin), the mixture was heated to 80°C,
and after heating for one hour at that temperature, 36
parts of aluminum sulfate were added The reaction mixture
was filtered and the filter cake was rinsed, upon which a
pigment press cake containing the disazo pigment expressed
by Formula (P-1) and the disazo compound expressed by
Formula (II-1) was obtained The proportional content of
the disazo compound expressed by Formula (II-1) in the
solid portion of the resulting disazo pigment composition
was 6% Hereinbelow, this will be referred to as
Comparative Example Press Cake 8

Using the same procedure as in Example 1, with the
exception that the 16 5 parts of the 2-acetoacetylamino
benzoic acid expressed by Formula (2) were replaced by
22.1 parts of the 4-acetoacetylamino benzene sulfonic acid
expressed by the following Formula (7)
a pigment slurry containing the disazo pigment (C. I.
pigment Y-12) expressed by Formula (P-1), the disazo
compound (corresponding to a compound expressed by Formula
(1)) expressed by the following Formula (1-3)
and the disazo compound (corresponding to a compound
expressed by Formula (II)) expressed by Formula (II-1) was
obtained
After stirring this pigment slurry for one more hour,
20 parts of aluminum sulfate were added This mixture was
regulated to a pH of 5 using a sodium hydroxide solution,
then heated to 80°C The resulting reaction mixture was
filtered and the filter cake was rinsed, upon which a
pigment press cake of the disazo pigment composition
according to the present invention was obtained The
proportional content of an aluminum salt of the disazo
compound expressed by Formula (I-3) and the compound
expressed by Formula (II-1) in the solid portion of the
resulting disazo pigment composition were respectively 7%
and 6%. Hereinbelow, this will be referred to as Example
Press Cake 5.

Using the same procedure as in Comparative Example 1,
with the exception that the 16 5 parts of the 2-
acetoacetylamino benzoic acid expressed by Formula (2)
were replaced by 22.1 parts of the 4-acetoacetylamino
benzene sulfonic acid expressed by Formula (7), a pigment
slurry containing the disazo pigment expressed by Formula
(P-1) and the disazo compound expressed by Formula (I-3)
was obtained. The proportional content of the disazo
compound expressed by Formula (I-3) in the solid portion
of the resulting pigment slurry was 7%.
After stirring this pigment slurry for one more hour,
20 parts of aluminum sulfate were added This mixture was
regulated to a pH of 5 using a sodium hydroxide solution,
then heated to 80°C. The resulting reaction mixture was
filtered and the filter cake was rinsed to obtain a
pigment press cake Hereinbelow, this will be referred to
as Comparative Example Press Cake 9.

After stirring the pigment slurry obtained in
Comparative Example 2 for one more hour, 20 parts of
aluminum sulfate were added. This mixture was regulated to
a pH of 5 using a sodium hydroxide solution, then heated
to 80°C The resulting reaction mixture was filtered and
the filter cake was rinsed, upon which a pigment slurry
containing the disazo pigment expressed by Formula (P-1)
and the disazo compound expressed by Formula (II-1) were
obtained. The proportional content of the compound
expressed by Formula (II-1) in the solid portion of the
resulting pigment slurry was 6%. Hereinbelow, this will be
referred to as Comparative Example Press Cake 10.

After blending together a press cake of 3,3"-
dichlorobenzidine hydrochloride in an amount corresponding
to 150 parts of the 3,3"-dichlorobenzidine expressed by
Formula (1) with 186 parts of 35º hydrochloric acid, 1500
parts of water and 750 parts of ice, an aqueous solution
of 86 parts of sodium nitrite was added under exposure to
ice to obtain a tetrazo solution of 3,3"-dichlorobenzidine.
27.5 parts of the 2-acetoacetylamino benzoic acid
expressed by Formula (2) were added to this 3,3"-
dichlorobenzidine tetrazo solution, then the result was
mixed for three hours to obtain a reaction intermediate
(A6) .
After mixing and dissolving 230 parts of the
acetoacet-m-xylidide expressed by the following Formula
(8)
with 273 2 parts of a 25% sodium hydroxide solution and
3600 parts of water, diluted acetic acid comprising 114
parts of 90% acetic acid and 500 parts of water were
dripped therein over a period of one hour, upon which
crystals precipitated to obtain reaction intermediate
(C61) .
Supply pumps were prepared so as to allow the
reaction intermediate (A6) to be dripped at a constant
speed, and this was dripped into the reaction intermediate
(C61) while regulating the fluid temperature to 5-10°C
over a period of three hours After the dripping was
completed, the result was mixed for one more hour and
heated to 80°C. The reaction mixture was filtered and the
filter cake was rinsed and dried to obtain a powdered
pigment (P1) containing 320 parts of the disazo pigment (C.
I pigment Y-13) expressed by the following Formula (P-2)
and 83 parts of the disazo compound (corresponding to a
compound expressed by Formula (I)) expressed by the
following Formula (I-4) :
Separately, after blending a press cake of 3,3"-
dichlorobenzidine hydrochloride in an amount corresponding
to 150 parts of 3,3"-dichlorobenzidine with 186 parts of
35° hydrochloric acid, 1500 parts of water and 750 parts
of ice, an aqueous solution of 86 parts of sodium nitrite
was added under exposure to ice to obtain a tetrazo
solution of 3,3"-dichlorobenzidine 8.2 parts of the 4-
acetoacetylamino benzamide expressed by Formula (3) were
added to this 3,3"-dichlorobenzidine tetrazo solution,
then the result was mixed for three hours to obtain a
reaction intermediate (B6)
After mixing and dissolving 247 6 parts of the
acetoacet-m-xylidide expressed by Formula (8) with 273.2
parts of a 25% sodium hydroxide solution and 3600 parts of
water, diluted acetic acid comprising 114 parts of 90%
acetic acid and 500 parts of water were dripped therein
over a period of one hour, upon which crystals
precipitated to obtain reaction intermediate (C62)
Supply pumps were prepared so as to allow the
reaction intermediate (B6) to be dripped at a constant
speed, and this was dripped into the reaction intermediate
(C62) while regulating the fluid temperature to 5-10°C
over a period of three hours After the dripping was
completed, the result was mixed for one more hour and
heated to 80°C. The reaction mixture was filtered and the
filter cake was rinsed and dried to obtain a powdered
pigment (P2) containing 380 parts of the disazo pigment
expressed by Formula (P-2) and 25 parts of the disazo
compound (corresponding to a compound expressed by Formula
(II)) expressed by the following Formula (II-3)
The powdered pigment (P1) and the powdered pigment
(P2) were mixed to obtain a pigment powder of the disazo
pigment composition according to the present invention.
Hereinbelow, this will be referred to as Example Powder 6.

After blending together a press cake of 3,3"-
dichlorobenzidine hydrochloride in an amount corresponding
to 150 parts of the 3,3"-dichlorobenzidine expressed by
Formula (1) with 186 parts of 35% hydrochloric acid, 1500
parts of water and 750 parts of ice, an aqueous solution
of 86 parts of sodium nitrite was added under exposure to
ice to obtain a tetrazo solution of 3,3"-dichlorobenzidine.
27.5 parts of the 2-acetoacetylamino benzoic acid
expressed by Formula (2) were added to this 3,3"-
dichlorobenzidine tetrazo solution, then the result was
mixed for three hours to obtain a reaction intermediate
(all)
After mixing and dissolving 230 parts of the
acetoacet-m-xylidide expressed by Formula (8) with 273 2
parts of a 25% sodium hydroxide solution and 3600 parts of
water, diluted acetic acid comprising 114 parts of 90%
acetic acid and 500 parts of water were dripped therein
over a period of one hour, upon which crystals
precipitated to obtain reaction intermediate (c11)
Supply pumps were prepared so as to allow the
reaction intermediate (all) to be dripped at a constant
speed, and this was dripped into the reaction intermediate
(c11) while regulating the fluid temperature to 5-10°C
over a period of three hours. After the dripping was
completed, the result was mixed for one more hour and
heated to 80°C. The reaction mixture was filtered and the
filter cake was rinsed and dried to obtain a powdered
pigment containing 320 parts of the disazo pigment
expressed by Formula (P-2) and 83 parts of the disazo
compound expressed by Formula (1-4) . Hereinbelow, this
will be referred to as Comparative Example Powder 11.

After blending together a press cake of 3,3"-
dichlorobenzidine hydrochloride in an amount corresponding
to 150 parts of the 3,3"-dichlorobenzidine expressed by
Formula (1) with 186 parts of 35% hydrochloric acid, 1500
parts of water and 750 parts of ice, an agueous solution
of 86 parts of sodium nitrite was added under exposure to
ice to obtain a tetrazo solution of 3, 3"-dichlorobenzidine
8 2 parts of the 4-acetoacetylamino benzamide expressed by
Formula (3) were added to this 3,3"-dichlorobenzidine
tetrazo solution, then the result was mixed for three
hours to obtain a reaction intermediate (b12).
After mixing and dissolving 247.6 parts of the
acetoacet-m-xylidide expressed by Formula (8) with 273 2
parts of a 25% sodium hydroxide solution and 3600 parts of
water, diluted acetic acid comprising 114 parts of 90%
acetic acid and 500 parts of water were dripped therein
over a period of one hour, upon which crystals
precipitated to obtain reaction intermediate (cl2).
Supply pumps were prepared so as to allow the
reaction intermediate (bl2) to be dripped at a constant
speed, and this was dripped into the reaction intermediate
(cl2) while regulating the fluid temperature to 5-10°C
over a period of three hours. After the dripping was
completed, the result was mixed for one more hour and
heated to 80°C The reaction mixture was filtered and the
filter cake was rinsed and dried to obtain a powdered
pigment containing 380 parts of the disazo pigment
expressed by Formula (P-2) and 25 parts of the disazo
compound expressed by Formula (II-3) Hereinbelow, this
will be referred to as Comparative Example Powder 12.

Using the same procedure as in Example 6, with the
exceptions that the 27 5 parts of the 2-acetoacetylamino
benzoic acid expressed by Formula (2) were replaced by
31.8 parts of the 3-acetoacetylamino-4-chlorobenzoic acid
expressed by the following Formula (9)
the 230 parts of the acetoacet-m-xylidide were replaced by
232.5 parts of the acetoacet-o-anisidide expressed by the
following Formula (10)
the 8 2 parts of the 4-acetoacetylamino benzamide
expressed by Formula (3) were replaced by 8 7 parts of the
4-acetoacetylamino acetanilide expressed by the following
and the 247 6 parts of the acetoacet-m-xylidide expressed
by Formula (8) were replaced by 250 3 parts of the
acetoacet-o-amsidide expressed by Formula (10), a pigment
powder of the disazo pigment composition according to the
present invention containing 705 parts of the disazo
pigment (C. I. pigment Y-17) expressed by the following
Formula (P-3).
91 parts of the disazo compound (corresponding to a
compound expressed by Formula (I)) expressed by the
following Formula (I-5).
and 26 parts of the disazo compound (corresponding to a
compound expressed by Formula (II)) expressed by the
following Formula (II-5)

Using the same procedure as in Comparative Example 11,
with the exceptions that the 27.5 parts of the 2-
acetoacetylamino benzoic acid expressed by Formula (2)
were replaced by 31.8 parts of the 3-acetoacetylamino-4-
chlorobenzoic acid expressed by Formula (9) and the 230
parts of the acetoacet-m-xylidide expressed by Formula (8)
were replaced by 232.5 parts of the acetoacet-o-anisidide
expressed by Formula (10), a powdered pigment containing
322 parts of the disazo pigment expressed by Formula (P-3)
and 91 parts of the disazo compound expressed by Formula
(1-5) was obtained. Hereinbelow, this will be referred to
as Comparative Example Powder 13

Using the same procedure as in Comparative Example 12,
with the exceptions that the 8 2 parts of the 4-
acetoacetylamino benzamide expressed by Formula (3) were
replaced by 8.7 parts of the 4-acetoacetylamino
acetanilide expressed by Formula (11) and the 247 6 parts
of the acetoacet-m-xylidide expressed by Formula (8) were
replaced by 250 3 parts of the acetoacet-o-anisidide
expressed by Formula (10), a powdered pigment containing
382 parts of the disazo pigment expressed by Formula (P-3)
and 2 6 parts of the disazo compound expressed by Formula
(II-5) was obtained. Hereinbelow, this will be referred to
as Comparative Example Powder 14.

Using the following procedures, the pigment press
cakes obtained in Examples 1-5 and Comparative Examples 1-
10 were formed into inks.
After adding 300 parts of a lithographic ink varnish
(a varnish containing rosin phenolic resin manufactured by
Dainippon Ink and Chemical) to a flusher heated to 60°C, a
pigment press cake was added in an amount corresponding to
100 parts when converting for the solid portion of the
pigment, and the result was flushed while kneading for 30
minutes. After decanting the free water, the flusher
temperature was raised to 80°C while vacuum dehydrating in
order to remove the water content. After confirming that
the water content had been removed, 170 parts of the
lithographic ink varnish (a varnish containing rosin
phenolic resin manufactured by Dainippon Ink and Chemical)
and 30 parts of light oil were gradually added to obtain a
test ink
The flow ability and laray viscosity of the test inks
prepared by the above procedures were measured, and the
results are shown in Table 1.
With regard to the numerical values for the flow
ability, higher values indicate that the lithographic ink
has higher flow ability. With regard to the numerical
values for the laray viscosity, higher values indicate
that the lithographic ink has higher viscosity.
It should be noted that the flow ability was
evaluated by kneading 1 g of printing ink for 1 minute
using a spatula, putting the printing ink on the higher
end of a glass plate which is placed with an inclination
angle of 70°, waiting for 60 minutes, and measuring the
length of the printing ink which has run toward a lower
position (the length of the printing ink from the highest
end to the lowest end).
The results shown in Table 1 demonstrate that the
lithographic inks which use the disazo pigment
compositions of the present invention obtained in Examples
1-5 have both high flow ability and high viscosity. On the
other hand, the conventional disazo pigments obtained in
Comparative Examples 1-10 form lithographic inks either
having high flow ability but low viscosity or having high
viscosity but low flow ability, and they do not have both
high flow ability and high viscosity.

Using the following procedures, the pigment powders
obtained in Examples 6-7 and Comparative Examples 11-14
were formed into inks.
Specifically, 300 parts of a lithographic ink varnish
heated to 40°C and 100 parts of a pigment powder were put
into a stainless steel vessel, then mixed with a lab mixer
to prepare a mill base. This mill base was milled by using
a triple roll mill to prepare a base ink In the triple
roll mill, 170 parts of the lithographic ink varnish and
30 parts of light oil were gradually added to the base ink
to prepare a test ink
The flow ability and laray viscosity of the test inks
prepared by the above procedures were measured, and the
results are shown in Table 2
The results shown in Table 2 demonstrate that the
lithographic inks which use the disazo pigment
compositions of the present invention obtained in Examples
6-7 have both high flow ability and high viscosity. On the
other hand, the conventional disazo pigments obtained in
Comparative Examples 11-14 form lithographic inks either
having high flow ability but low viscosity or having high
viscosity but low flow ability, and they do not have both
high flow ability and high viscosity
WE CLAIM:
A process for preparing an offset ink which comprises producing a disazo pigment
composition and kneading the composition thus obtained in an offset ink vehicle, being at
least one resin selected from a group consisting of rosm phenolic resins, petroleum resins, alkyd
resins and dry oil resms thereof and in at least one additive selected from the group consisting of
ink solvents, driers, leveling agents and thickeners, wherein the disazo pigment composition
comprises the following components (a) to (c)
(a) a disazo pigment such as herein described;
(b) a disazo compound expressed by the following Formula (I):
wherein X and. Y each independently denote a hydrogen atom, a halogen atorn, an
alkyl group with 1-4 carbon atoms, an alkoxyl group with 1-4 carbon atoms or an
alkoxyca bonyl group having an alkoxyl group with 1-4 carbon atoms, provided
that X and Y never simultaneously denote hydrogen atoms, Z denotes a phenyl
group or a naphthyl group which may have 1-4 identical or different substituent
groups selected from the group consisting of lower alkyl groups, lower alkoxyl
groups halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and Z2
denotes a phenyl group or naphthyl group which may have 1-4 identical or different
substituent groups selected from the group consisting of lower alkyl groups, lower
alkoxyl groups, halogen atoms, hydroxy! groups and lower alkoxycarbonyl groups,
and having a carboxylic acid group and/or a sulfonic acid group which may be a salt
of a metal of at least one type selected from the group consisting of alkali earth
metals, aluminum, magnesium and zinc: and
(c) a disazo compound expressed by the following Formula (II)
conventional method, the disazo compound expressed by general formula (I) and
the disazo compound expressed by general formula (II) which have been separately
Stored, when preparing an ink or a coating, or
(f) a method of simultaneously synthesizing a disazo pigment, the disazo
compound expressed by general formula (1) and the disazo compound expressed by
general formula (II),
the above-described method (f) being a method of the following (I) or (11))
(I) a method of obtaining a disazo pigment composition by mixing a
reaction intermediate of the tetrazo compound of atomatic diamine expressed by
general formula (III)
(wherein X and Y each independently represent a hydrogen atom, a halogen atom,
an alkyl group having 1-4 carbon atoms an alkoxyl group having 1-4 carbon atoms
or an alkoxycarbonyl group having an alkoxyl group having 1-4 carbon atoms, with
the exception that X and Y never simultaneously represent hydrogen atoms) and an
acetoacetamide compound (hereinafter referred to as coupling component A2)
expressed by the following general formula (IV)

(wherein Z2 represents a phenyl group or a naphthy] group which may have 1-4
identical 01 different substituent groups selected from the group consisting of lower
wherein X and Y each independently denote a hydrogen atom a halogen atom, an
alkyl group with 1-4 carbon atoms, an alkoxyl group with 1-4 carbon atoms or an
alkoxycarbonyl group having an alkoxyl group with 1-4 carbon atoms, provided
that X and Y never simultaneously denote hydrogen atoms, Z1 denotes a phenyl
group or a naphthyl group which may have 1-4 identical or different substituent
groups selected from the group consisting of lower alkyl groups, lower alkoxyl
groups, halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, and Z3
denotes a benzimidazolone residue, aphthahmide residue, or a phenyl group or
naphthyl group which may have 1 -4 identical or different substituent groups
selected from the group consisting of lower alkyl groups, lower alkoxyl groups,
halogen atoms, hydroxyl groups and lower alkoxycarbonyl, and having 1-4
substituent groups selected from the group consisting of carboxylic amide groups,
sulfonic amide groups and acetamido groups,
the amounts of the above (a) to (c) are such that when total amount of (a)
(b) and (c) is 100 % by weight, the amount of (b) is 1 to 20 % by weight, the
amount of (c) is 1 to 20 % by weight, and the amount (a) is the balance,
the process for producing disazo pigment composition comprising one of the following methods (d) to (f)
(d) a method of mixing the disazo compound expressed by general formula
(I) and the disazo compound expressed by general formula (II) into a disazo
pigment synthesized by a conventional method, then extracting as a press cake
pigment or a powder pigment,
(e) a method of sequentially mixing in a disazo pigment synthesized by a
alkyl groups, lower alkoxyl groups, halogen atoms, hydroxyl groups and lower
alkoxycarbonyl groups, the phenyl groups or naphthyl groups having 1-4 carboxylic
acid groups and/or sulfonic acid groups, the carboxylic acid groups and/or sulfonic
acid groups being capable of being salts of at least one type of metal selected from
the group consisting of alkali earth metals, aluminum, magnesium and zinc) with a
reaction intermediate of the tetrazo compound of atomatic diamine expressed by
general formula (III) and an acetoacetamide compound (hereinafter refened to as
coupling component A3) expressed by the following general formula (VI)
CH3COCH2CONH-Z3 (VI)
(wheiein Z3 is a benzimidazolone residue, a phthalimidc residue, or a phenyl group
or a naphthyl group which may have 1-4 identical or different substiruent groups
selected fiom the group consisting of lower alkyl groups, lower alkoxyl groups,
halogen atoms, hydroxyl groups and lower alkoxycarbonyl groups, the phenyl
groups 01 naphthyl groups having 1-4 substituent groups selected from the group
consisting of carboxylic amides, sulfonic amides and acetamido groups), and adding
the mixture, or adding these reaction intermediates without mixing them, to
acetoacetamide compound (hereinafter referred to as coupling component A1)
expressed by the following general formula (V)
CH3COCH2CONH—Z1 • (V)
(wherein Z1 represents a phenyl group 01 a naphthyl group which may have 1-4
identical or different substituent groups selected from the group consisting of lower
alkyl groups, lower alkoxyl groups. halogen atoms, hydroxyl groups and lower
alkoxycarbonyl groups) to induce a reaction, or
(II) a method of mixing together a pigment composition obtained by
reacting a reaction intermediate of the tetrazo compound of aromatic diamine
expressed by general formula (III) and coupling component A2 with the coupling
component A1, and a pigment composition obtained by reacting a leaction
intermediate of the tetrazo compound of aromatic diamine expressed by general
formula (III) and coupling component A3 with the coupling component A1.
2. A process for preparing an offset ink as claimed in
claim 1, wherein
in Formula (I) , X and Y each independently denote a
hydrogen atom, a halogen atom, an alkyl group with 1-4
carbon atoms, an alkoxyl group with 1-4 carbon atoms or an
alkoxycarbonyl group having an alkoxyl group with 1-4
carbon atoms, provided that X and Y never simultaneously
denote hydrogen atoms, Z1 denotes a phenyl group or a
naphthyl group which may have 1-4 identical or different
substituent groups selected from the group consisting of
lower alkyl groups, lower alkoxyl groups, halogen atoms,
hydroxyl groups and lower alkoxycarbonyl groups, and Z2
denotes a phenyl group or naphthyl group which may have 1-
4 identical or different substituent groups selected from
the group consisting of lower alkyl groups, lower alkoxyl
groups, halogen atoms, hydroxyl groups and lower
alkoxycarbonyl groups, and having 1-4 carboxylic acid
groups and/or sulfonic acid groups; and
in Formula (II), X and Y each independently denote a
hydrogen atom, a halogen atom, an alkyl group with 1-4
carbon atoms, an alkoxyl group with 1-4 carbon atoms or an
alkoxycarbonyl group having an alkoxyl group with 1-4
carbon atoms, provided that X and Y never simultaneously
denote hydrogen atoms, Z1 denotes a phenyl group or a
naphthyl group which may have 1-4 identical or different
substituent groups selected from the group consisting of
lower alkyl groups, lower alkoxyl groups, halogen atoms,
hydroxyl groups and lower alkoxycarbonyl groups, and Z3
denotes a phenyl group or naphthyl group which may have 1-
4 identical or different substituent groups selected from
the group consisting of lower alkyl groups, lower alkoxyl
groups, halogen atoms, hydroxyl groups and lower
alkoxycarbonyl, and having 1-4 substituent groups selected
from the group consisting of carboxylic amide groups,
sulfonic amide groups and acetamido groups.
A process for preparing an offset ink as claxmed in claim.
1, wherein in Formula (I) and Formula (II), X and Y are
each independently a hydrogen atom or a chlorine atom,
provided that X and Y are never simultaneously hydrogen
atoms, Z1 is a phenyl group which may have 1-2 methyl
groups or methoxy groups, Z2 is a phenyl group which may
have a hydroxyl group or a chlorine atom and having a
carboxylic acid group or a sulfonic acid group which may
be an aluminum salt, and Z3 is a benzimidazolone residue,
or a phenyl group having a carbamoyl group, an acetamido
group or a sulfamoyl group.
4. A process for preparing an offset ink as claimed in claim 1,
wherein in Formula (I) and Formula (II), X and Y are
each independently a hydrogen atom or a chlorine atom,
provided that X and Y are never simultaneously hydrogen
atoms, Z1 is a phenyl group which may have 1-2 methyl
groups or methoxy groups, Z2 is a phenyl group which may
have a hydroxyl group and having a carboxylic acid group
which may be an aluminum salt, and Z3 is a phenyl group
having a carbamoyl group, or an acetamido group.
5. A process for preparing an offset ink as claimed in any
of claims 1-4, wherein the proportional content of the
disazo compound expressed by Formula (I) in the solid
portion of said disazo pigment composition is within the
range of 1% to 20% by weight, and the proportional content
of the disazo compound expressed by Formula (II) in the
solid portion of said disazo pigment composition is within
the range of 1% to 20% by weight.
6. A process for preparing an offset ink as claimed in any
of claims 1-4, wherein the total proportional content of
the disazo compound expressed by Formula (I) and the
disazo compound expressed by Formula (II) in the solid
portion of said disazo pigment composition is within the
range of 4% to 35% by weight, and their weight ratio
(I)/(II) is within the range of 30/70 to 75/25.
7. A process for preparing an offset ink as claimed in any
of claims 1-6, wherein said disazo pigment is a disazo
pigment expressed by the following Formula (VII):
wherein X and Y each independently denote a hydrogen atom,
a halogen atom, an alkyl group with 1-4 carbon atoms, an
alkoxyl group with 1-4 carbon atoms or an alkoxycarbonyl
group having an alkoxyl group with 1-4 carbon atoms,
provided that X and Y never simultaneously denote hydrogen
atoms, and Z1 denotes a phenyl group or a naphthyl group
which may have 1-4 identical or different substituent
groups selected from the group consisting of lower alkyl
groups, lower alkoxyl groups, halogen atoms, hydroxyl
groups and lower alkoxycarbonyl groups.
8. A process for preparing an offset ink as claimed in claim
7, wherein X, Y and Z1 in Formula (I), Formula (II) and
Formula (VII) are respectively identical.
9. A process for preparing an offset ink as claimed in claim
of claims 1-6, wherein said disazo pigment is at least one
disazo pigment selected from the group consisting of
pigments having C. I. pigment numbers Y-12, Y-13, Y-14, Y-
17, Y-55, Y-57 and Y-81
10. A process for preparing an offset ink as claimed in
any of the preceding claims which comprises producing a
dxsazo pigment composition by mixing a disazo pigment
such as herein described with disazo compounds of formula
(I) and formula (II) as defined in claim 1,
simultaneously or sequentially and kneading the
composition thus obtained in a printing ink vehicle such
as herein described.
11. A process, for preparing an offset ink,
substantially as herein described, particularly with
reference to the foregoing examples
A process for preparing a printing ink comprising a disazo
composition in a printing ink vehicle wherein said disazo
pigment composition, having both high flow ability and high
viscosity, comprising (a) disazo pigment, (b) an
asymmetrical disazo compound having a water-soluble group
and (c) an asymmetrical disazo compound, which has a
substituent group possessing a hydrogen-bonding property.

Documents:

00250-kol-2003-abstract.pdf

00250-kol-2003-claims.pdf

00250-kol-2003-correspondence.pdf

00250-kol-2003-description (complete).pdf

00250-kol-2003-form 1.pdf

00250-kol-2003-form 18.pdf

00250-kol-2003-form 2.pdf

00250-kol-2003-form 3.pdf

00250-kol-2003-form 5.pdf

00250-kol-2003-gpa.pdf

00250-kol-2003-letter patent.pdf

00250-kol-2003-priority document others.pdf

00250-kol-2003-priority document.pdf

00250-kol-2003-reply f.e.r.pdf

250-KOL-2003-FORM-27.pdf

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Patent Number

212096

Indian Patent Application Number

250/KOL/2003

PG Journal Number

46/2007

Publication Date

16-Nov-2007

Grant Date

15-Nov-2007

Date of Filing

02-May-2003

Name of Patentee

DAINIPPON INK AND CHEMICALS, INC.

Applicant Address

35-38, SAKASHITA 3-CHOME, ITABASHI-KU, TOKYO, JAPAN.

Inventors:

#	Inventor's Name	Inventor's Address
1	KOBAYASHI, NAGATOSHI	4081, YANAGAWA HASAKI-MACHI KASHIMA-GUN, IBARAKI-KEN
2	TOMIOKA, SADAYUKI	120-32, MIYATSUDAI, KASHIMA-SHI, IBARAKI-KEN
3	AOKI, SHIGETO	120-1, SITTE, KAMISU-MACHI, KASHIMA-GUN, IBARAKI-KEN.
4	ANDO, HIROHITO	2-24-9, HINODE, ITAKO-MACHI, NAMEKATA-GUN, IBARAKI-KEN.

PCT International Classification Number

C09B 67/22

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	8-209794	1996-08-08	Japan