CN109929321A - Offset litho printing ink and its preparation process - Google Patents

Abstract

The present invention discloses a kind of offset litho printing ink and its preparation process, the ink are prepared by the Raw material processing of following parts by weight: UV solidified resin 55-65 parts by weight, pigment 15-20 parts by weight, photoinitiator 10-12 parts by weight, filler 2-3 parts by weight, antiwear assistant 2-4 parts by weight, polymerization inhibitor 1-1.5 parts by weight and lubricating grease 2-3 parts by weight；Lubricating grease, which is added, in the present invention in ink system reduces the surface tension of ink system, by the way that polyvinylacetate is added into UV solidified resin, glass mixture, reduce the cure shrinkage of UV solidified resin, to improve the freedom from cracking ability of ink and the adhesive ability of ink after brushing, the present invention is also by being modified kaolin, improve the coupling effect of silane coupling agent Yu kaolin surface active group, realize the uniform modification to kaolin surface, again using modified kaolin as filler, to improve the anti-winged Mo Xingzhi of dispersion performance and ink of the kaolin in ink.

Description

Offset litho printing ink and its preparation process

Technical field

The invention belongs to offset printing technical fields, specifically, being related to a kind of offset litho printing ink and its preparation process.

Background technique

Printing is a kind of time-honored technology, and wherein offset printing is current the most widely used at home one Kind printing technology, offset printing is a kind of a kind of printing side that the graph text information on printing plate is transmitted on stock by rubber Formula, the mode of printing have many advantages, such as that print speed printing speed is fast, and printing quality stable and print cycle are short, oil employed in printing Ink is most important a kind of printing material in printing technology, should have good printability in printing process.

Solvent-based ink is one kind using petroleum solvent as mixed system, and plurality of active ingredients is mixed preparation and is formed Ink, this kind of ink are due to containing bulk petroleum solvent, when in use, it may appear that degradation is dry slow, and can generate a large amount of Hydrocarbon gas, on the one hand construction environment can be affected, be harmful to the health of staff, on the other hand generated Hydrocarbon gas can damage natural environment, and in order to solve this problem, present offset ink much uses UV light The ink of change can speed up ink solidification speed, and printing efficiency is high, while being solidified by ultraviolet light, not need dry dry It is dry, a large amount of energy consumption is saved, light curable type ink is by feat of these advantages, thus be gradually widely used, But light curable type ink is there is also the adhesive force on plastic material film is poor simultaneously, and it is more crisp after solidification, it is easy to burst apart The deficiencies of peeling off, influencing effect after printing, in order to solve this problem, the present invention provides following technical schemes.

Summary of the invention

The purpose of the present invention is to provide a kind of offset litho printing ink and its preparation processes.

The technical problem to be solved in the invention are as follows:

1, in the prior art, light-curable ink is mainly used on paper printing, and light-curable ink is in plastic material Adhesive ability on the shiny surfaces such as film is poor, and the graph text information after leading to printing is easy to appear peeling, not impact resistance, direct shadow Rung printing after ink layer stability, in the prior art mainly by the substrate to be printed be surface-treated with Promote the roughness or polarity of substrate surface；

2, in the prior art, light-curable ink rapid draing after through ultraviolet light, property is crisp, and flexibility is poor, Ink layer is easy to appear fracture, on the one hand causes ink layer cracked, influences printing effect, on the other hand then holds ink layer Easily there is local shedding, to directly affect printing effect.

The purpose of the present invention can be achieved through the following technical solutions:

A kind of offset litho printing ink is prepared by the Raw material processing of following parts by weight:

UV solidified resin 55-65 parts by weight, pigment 15-20 parts by weight, photoinitiator 10-12 parts by weight, filler 2-3 weight Part, antiwear assistant 2-4 parts by weight, polymerization inhibitor 1-1.5 parts by weight and lubricating grease 2-3 parts by weight；

The antiwear assistant is at least one of polyethylene wax, microwax, paraffin and polytetrafluoroethylwax wax；

The photoinitiator is that benzophenone and crack type photoinitiator are uniformly mixed according to weight ratio 1:1.5-2；

The pigment is the mixing of one of organic pigment and inorganic pigment or at least two；

The polymerization inhibitor is the mixture of one or both of p-hydroxyanisole, 1,4-benzoquinone；

The lubricating grease can reduce the surface tension of ink system, thus make ink can be attached to after brushing as On the substrate surface of the low surface tensions such as plastic film, promoted ink just coat after and low surface tension substrate combination energy Power；

The preparation process of the offset litho printing ink includes the following steps:

Step 1: it is molten to weigh agitating and heating after UV solidified resin, filler, polymerization inhibitor are mixed with photoinitiator according to parts by weight Melt, is uniformly mixed；

Step 2: pigment, antiwear assistant and lubricating grease are added in the molten mixture obtained suddenly one step up, sufficiently stir Ink intermediate is made after mixing dispersion；

Step 3: will ink intermediate be added grinding device in carry out grinding so that ink is reached regulation fineness after obtain finished product Offset litho printing ink.

The UV solidified resin is prepared by the processing of following raw material:

Epoxy acrylic resin 30-40 parts by weight, polyurethane acrylic resin 20-30 parts by weight, polyoxyalkylene acrylate resin 15-20 parts by weight, polyvinyl acetate 4-5 parts by weight and glass mixture 5-10 parts by weight；

The glass mixture is uniformly to be mixed by the glass fiber powder of 40%-60% with the glass fibre of 40%-60% Composition, wherein the filament diameter of glass fibre is 3-10 μm, and the filament length of glass fibre is 1-3mm；

The processing technology of the UV solidified resin are as follows:

After S1, the pH to 3.5-4 by inorganic acid adjusting deionized water, silane coupling agent is added thereto, stirs to molten Liquid clear makes silane coupling agent complete hydrolysis, and wherein the volume ratio of silane coupling agent and deionized water is 1:1.5-3, obtains To silane coupling agent hydrolyzate, glass mixture is added in silane coupling agent hydrolyzate, after reaction 30-60min is mixed It is separated by solid-liquid separation, glass mixture is stand-by in 110-120 DEG C of at a temperature of solidification drying；

S2, it will obtain being uniformly mixed in the polyvinylacetate particle of glass fibre addition solid state in previous step Afterwards, it under the revolving speed of 200-300r/min, is heated with the heating rate of 2-3 DEG C/min, keeps polyvinylacetate gradually soft Change dissolution to be homogenously mixed together to obtain additive with glass mixture；

S3, epoxy acrylic resin, polyurethane acrylic resin, polyoxyalkylene acrylate resin are uniformly mixed according to parts by weight Heating and melting afterwards is uniformly mixed simultaneously, and adjusting revolving speed is that 200-300r/min is stirred and to being slowly added thereto The additive that previous step obtains, object to be added continue to stir 30-60min after being added completely into；

S4, the molten mixture extruding pelletization that previous step obtains is obtained into finished product UV solidified resin.

UV solidified resin of the present invention makes the UV solidified resin tool of preparation using a variety of UV-cured resins as raw material There are good tensile strength, hardness, flexibility, resistance to yellow and chemical-resistance, while by the way that polyvinylacetate is added thereto, gathering Vinyl acetate is a kind of thermoplastic macromolecule material, can reduce the cure shrinkage of acrylic materials, while also benefit Disperse glass mixture with the property of the watery fusion of polyvinylacetate, glass fiber powder can reduce UV in glass mixture The shrinking percentage of solidified resin, and glass fibre then improves the freedom from cracking ability of ink after brushing, to promote the attachment of ink Ability.

The filler is to be modified to be prepared to kaolin:

The preparation process of the filler includes the following steps:

SS1, kaolin is added in Muffle furnace, in 1000-1100 DEG C of roasting temperature 2-2.5h, after roasting, Kaolin is taken out into cooling for use, kaolinic crystal structure can be destroyed by carrying out calcination process to kaolin, make kaolinite The partial size of soil increases, and hardness is promoted, and surface can reduce, so that kaolinic dispersibility be made to get a promotion；

After SS2, the pH to 3.5-4 by inorganic acid adjusting deionized water, silane coupling agent is added thereto, stirs to molten Liquid clear makes silane coupling agent complete hydrolysis, and wherein the volume ratio of silane coupling agent and deionized water is 1:2-2.5, obtains To silane coupling agent hydrolyzate, in this step, the silane coupling agent hydrolyzate prepared will be timely used, and prevent polycondensation shadow Ring the effect of silane coupling agent；

SS3, mass concentration is prepared as the potassium chloride deionized water solution of 0.2%-0.35% and is heated to boiling, press It takes K-type carragheen to be added in the deionized water solution of the potassium chloride according to parts by weight, adjusts its pH to 7, be cooled to after boiling 10min After 95-98 DEG C and 8-15min is kept the temperature, wherein the mass ratio of the deionized water solution of carragheen and potassium chloride is 1:15-20；

SS4, the carrageenan solutions for taking previous step to obtain, stirring keep the temperature after being cooled to 70-80 DEG C and adjust speed of agitator Silane coupling agent hydrolyzate obtained in step SS2 is slowly added into thereto to 300-400r/min, to silane coupled hydrolyzate After being added completely into, stop stirring and being cooled to rapidly 5-10 DEG C, obtain coagulated colloid structure, wherein carrageenan solutions and silane are even The volume ratio for joining agent hydrolyzate is 2.5-4:1, and coagulated colloid is ground into uniform small particles, coagulated colloid by mechanical shear stress The partial size of particle is 2-3mm；

SS5, the kaolin for obtaining step SS1 are added in blender, adjust revolving speed to 300-400r/min, thereto plus Enter coagulated colloid particle obtained in previous step, after colloidal solid to be solidified is added completely into, promotes revolving speed to 600-800r/ Min continues to stir 5-8min, guarantees that temperature of charge is no more than 10 DEG C in whipping process, ball milling is added in the mixture stirred to get Modified kaolin is obtained in machine after ball milling 20-50min, wherein ratio of grinding media to material is 2-3.5:1, revolving speed 250-350r/min, kaolinite The weight ratio of soil and coagulated colloid particle is 10:0.5-2；

SS6, by modified kaolin that previous step obtains 110-120 DEG C at a temperature of baking and curing after crushed 200- 400 meshes obtain filler.

In the method, by the way that silane coupling agent and carragheen are cooperatively formed gel solids, by gel solids obtained It is dispersed in kaolin after crushing, is easy to appear when to preventing in the prior art using silane coupling agent hydrolyzate Disperse non-uniform situation, improve the dispersion effect of silane coupling agent, in step SS5, is further promoted by ball milling Dispersion effect, while passing through the hydrolysis that generated heat when ball milling accelerates carragheen under acidic environment, keep silane coupling agent sudden and violent Reveal and be coupled with the active group of kaolin surface, is realized to modifying kaolin.

Beneficial effects of the present invention:

1, lubricating grease, which is added, in the present invention in ink system reduces the surface tension of ink system, so that ink be made to apply It can be attached to after brush on such as substrate surface of plastic film low surface tension, while UV solidified resin of the present invention is with a variety of purples Outer light-cured resin as raw material, make the UV solidified resin of preparation have good tensile strength, hardness, flexibility, it is resistance to it is yellow with it is resistance to Chemical property, while by the way that polyvinylacetate is added thereto, glass mixture reduces the cure shrinkage of UV solidified resin Rate, to improve the freedom from cracking ability of ink and the adhesive ability of ink after brushing.

2, the present invention is crushed gel solids obtained by the way that silane coupling agent and carragheen are cooperatively formed gel solids After be dispersed in kaolin, improve the dispersion effect and silane coupling agent and kaolin surface active group of silane coupling agent The coupling effect of group realizes the uniform modification to kaolin surface, then using modified kaolin as filler, to improve The anti-winged Mo Xingzhi of dispersion performance and ink of the kaolin in ink.

Specific embodiment

The technical scheme in the embodiments of the invention will be clearly and completely described below, it is clear that described implementation Example is only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, this field is common Technical staff's all other embodiment obtained without creative efforts belongs to the model that the present invention protects It encloses.

Embodiment 1

A kind of offset litho printing ink is prepared by the Raw material processing of following parts by weight:

UV solidified resin 55-65 parts by weight, pigment 15-20 parts by weight, photoinitiator 10-12 parts by weight, filler 2-3 weight Part, antiwear assistant 2-4 parts by weight, polymerization inhibitor 1-1.5 parts by weight and lubricating grease 2-3 parts by weight；

The antiwear assistant is at least one of polyethylene wax, microwax, paraffin and polytetrafluoroethylwax wax；

The photoinitiator is that benzophenone and crack type photoinitiator are uniformly mixed according to weight ratio 1:1.5-2；

The pigment is the mixing of one of organic pigment and inorganic pigment or at least two；

The polymerization inhibitor is the mixture of one or both of p-hydroxyanisole, 1,4-benzoquinone；

The preparation process of the offset litho printing ink includes the following steps:

Step 1: it is molten to weigh agitating and heating after UV solidified resin, filler, polymerization inhibitor are mixed with photoinitiator according to parts by weight Melt, is uniformly mixed；

Step 2: pigment, antiwear assistant and lubricating grease are added in the molten mixture obtained suddenly one step up, sufficiently stir Ink intermediate is made after mixing dispersion；

Step 3: will ink intermediate be added grinding device in carry out grinding so that ink is reached regulation fineness after obtain finished product Offset litho printing ink.

The UV solidified resin is prepared by the processing of following raw material:

Epoxy acrylic resin 30-40 parts by weight, polyurethane acrylic resin 20-30 parts by weight, polyoxyalkylene acrylate resin 15-20 parts by weight, polyvinyl acetate 4-5 parts by weight and glass mixture 5-10 parts by weight；

The glass mixture is uniformly to be mixed by the glass fiber powder of 40%-60% with the glass fibre of 40%-60% Composition, wherein the filament diameter of glass fibre is 3-10 μm, and the filament length of glass fibre is 1-3mm；

The processing technology of the UV solidified resin are as follows:

After S1, the pH to 3.5-4 by inorganic acid adjusting deionized water, silane coupling agent is added thereto, stirs to molten Liquid clear makes silane coupling agent complete hydrolysis, and wherein the volume ratio of silane coupling agent and deionized water is 1:1.5-3, obtains To silane coupling agent hydrolyzate, glass mixture is added in silane coupling agent hydrolyzate, after reaction 30-60min is mixed It is separated by solid-liquid separation, glass mixture is stand-by in 110-120 DEG C of at a temperature of solidification drying；

S2, it will obtain being uniformly mixed in the polyvinylacetate particle of glass fibre addition solid state in previous step Afterwards, it under the revolving speed of 200-300r/min, is heated with the heating rate of 2-3 DEG C/min, keeps polyvinylacetate gradually soft Change dissolution to be homogenously mixed together to obtain additive with glass mixture；

S3, epoxy acrylic resin, polyurethane acrylic resin, polyoxyalkylene acrylate resin are uniformly mixed according to parts by weight Heating and melting afterwards is uniformly mixed simultaneously, and adjusting revolving speed is that 200-300r/min is stirred and to being slowly added thereto The additive that previous step obtains, object to be added continue to stir 30-60min after being added completely into；

S4, the molten mixture extruding pelletization that previous step obtains is obtained into finished product UV solidified resin.

The filler is to be modified to be prepared to kaolin:

The preparation process of the filler includes the following steps:

SS1, kaolin is added in Muffle furnace, in 1000-1100 DEG C of roasting temperature 2-2.5h, after roasting, Kaolin is taken out cooling stand-by；

After SS2, the pH to 3.5-4 by inorganic acid adjusting deionized water, silane coupling agent is added thereto, stirs to molten Liquid clear makes silane coupling agent complete hydrolysis, and wherein the volume ratio of silane coupling agent and deionized water is 1:2-2.5, obtains To silane coupling agent hydrolyzate；

SS3, mass concentration is prepared as the potassium chloride deionized water solution of 0.2%-0.35% and is heated to boiling, press It takes K-type carragheen to be added in the deionized water solution of the potassium chloride according to parts by weight, adjusts its pH to 7, be cooled to after boiling 10min After 95-98 DEG C and 8-15min is kept the temperature, wherein the mass ratio of the deionized water solution of carragheen and potassium chloride is 1:15-20；

SS4, the carrageenan solutions for taking previous step to obtain, stirring keep the temperature after being cooled to 70-80 DEG C and adjust speed of agitator Silane coupling agent hydrolyzate obtained in step SS2 is slowly added into thereto to 300-400r/min, to silane coupled hydrolyzate After being added completely into, stop stirring and being cooled to rapidly 5-10 DEG C, obtain coagulated colloid structure, wherein carrageenan solutions and silane are even The volume ratio for joining agent hydrolyzate is 2.5-4:1, and coagulated colloid is ground into uniform small particles, coagulated colloid by mechanical shear stress The partial size of particle is 2-3mm；

SS5, the kaolin for obtaining step SS1 are added in blender, adjust revolving speed to 300-400r/min, thereto plus Enter coagulated colloid particle obtained in previous step, after colloidal solid to be solidified is added completely into, promotes revolving speed to 600-800r/ Min continues to stir 5-8min, guarantees that temperature of charge is no more than 10 DEG C in whipping process, ball milling is added in the mixture stirred to get Modified kaolin is obtained in machine after ball milling 20-50min, wherein ratio of grinding media to material is 2-3.5:1, revolving speed 250-350r/min, kaolinite The weight ratio of soil and coagulated colloid particle is 10:0.5-2；

SS6, by modified kaolin that previous step obtains 110-120 DEG C at a temperature of baking and curing after crushed 200- Filler is obtained after 400 meshes.

Comparative example 1

Comparative example 1, comparative example 1 are not added with lubricating grease in the preparation process of ink.

Comparative example 2

Comparative example 1, comparative example 2 are not added thereto by silane coupler modified when preparing UV solidified resin Glass mixture.

Comparative example 3

Comparative example 1, comparative example 3 are not added thereto by silane coupler modified when preparing UV solidified resin Glass mixture, and with etc. quality glass mixture replaced by silane coupler modified calcium carbonate.

Comparative example 4

Comparative example 1, in comparative example 4 when being modified to kaolin, using dry method coupling agent surface treatment, by silicon It after alkane coupling agent and its micro dilution dilution agent of auxiliary agent, in modifying machine, is added into while stirring, reacts certain time After complete coupled action, obtain modified product, kaolin dosage is same as Example 1.

Experimental result and data are analyzed

Finished product ink is prepared according to embodiment 1 to comparative example 4, and the finished product ink being prepared is coated in pp film On, ink film thickness 0.05mm, and effect etc. after the adhesive force to each group ink, wearability, anti-winged performance of ink and solidification It is detected, wherein adhesive force is measured by viscous daraf(reciprocal of farad), and method is to glue drawing twice on printing surface using 3M adhesive plaster, according to By the viscous layer of ink situation pulled off, to judge whether adhesive force meets the requirements；Wearability is measured by wear resistant instrument；Solidify aftereffect The judgment method of fruit be observe by the naked eye solidify after ink layer cracking situation, concrete outcome is shown in Table 1:

Table 1

Group	Adhesive force	Wearability	It is anti-to fly ink	Effect after solidification
					Embodiment 1	It does not fall off	Without polishing scratch	Almost without winged ink	No cracking
Comparative example 1	It does not fall off	Without polishing scratch	Almost without winged ink	No cracking
					Comparative example 2	It does not fall off	A small amount of polishing scratch	It is obvious to fly ink phenomenon	There is obvious cracking
Comparative example 3	It does not fall off	Without polishing scratch	Almost without winged ink	There is a small amount of cracking
					Comparative example 4	It does not fall off	Without polishing scratch	It is obvious to fly ink phenomenon	No cracking

The experimental result shown by table 1 is it is found that ink prepared by the present invention has good freedom from cracking and anti-winged ink Effect.

Above content is only to structure of the invention example and explanation, affiliated those skilled in the art couple Described specific embodiment does various modifications or additions or is substituted in a similar manner, without departing from invention Structure or beyond the scope defined by this claim, is within the scope of protection of the invention.

Claims (5)

1. offset litho printing ink, which is characterized in that be prepared by the Raw material processing of following parts by weight:

UV solidified resin 55-65 parts by weight, pigment 15-20 parts by weight, photoinitiator 10-12 parts by weight, filler 2-3 parts by weight, Antiwear assistant 2-4 parts by weight, polymerization inhibitor 1-1.5 parts by weight and lubricating grease 2-3 parts by weight；

The antiwear assistant is at least one of polyethylene wax, microwax, paraffin and polytetrafluoroethylwax wax；

The photoinitiator is that benzophenone and crack type photoinitiator are uniformly mixed according to weight ratio 1:1.5-2；

The pigment is the mixing of one of organic pigment and inorganic pigment or at least two；

The polymerization inhibitor is the mixture of one or both of p-hydroxyanisole, 1,4-benzoquinone.

2. offset litho printing ink according to claim 1, which is characterized in that the UV solidified resin is former by following parts by weight Material processing is prepared:

Epoxy acrylic resin 30-40 parts by weight, polyurethane acrylic resin 20-30 parts by weight, polyoxyalkylene acrylate resin 15-20 Parts by weight, polyvinyl acetate 4-5 parts by weight and glass mixture 5-10 parts by weight；

The glass mixture, which is uniformly mixed by the glass fiber powder of 40%-60% with the glass fibre of 40%-60%, to be formed, Wherein the filament diameter of glass fibre is 3-10 μm, and the filament length of glass fibre is 1-3mm.

3. offset litho printing ink according to claim 1, which is characterized in that the processing technology of the UV solidified resin are as follows:

After S1, the pH to 3.5-4 by inorganic acid adjusting deionized water, silane coupling agent is added thereto, stirs clear to solution Clear bright, wherein the volume ratio of silane coupling agent and deionized water is 1:1.5-3, silane coupling agent hydrolyzate is obtained, by glass Mixture is added in silane coupling agent hydrolyzate, is separated by solid-liquid separation after reaction 30-60min is mixed, glass mixture is existed Solidification drying is stand-by at a temperature of 110-120 DEG C；

S2, it will be obtained in previous step in the polyvinylacetate particle of glass fibre addition solid state, after mixing, It under the revolving speed of 200-300r/min, is heated with the heating rate of 2-3 DEG C/min, polyvinylacetate is made gradually to soften dissolution It is homogenously mixed together to obtain additive with glass mixture；

S3, epoxy acrylic resin, polyurethane acrylic resin, polyoxyalkylene acrylate resin are added after evenly mixing according to parts by weight Heat melt, be uniformly mixed simultaneously, adjust revolving speed be 200-300r/min be stirred and to slowly thereto be added upper one The additive that step obtains, object to be added continue to stir 30-60min after being added completely into；

S4, the molten mixture extruding pelletization that previous step obtains is obtained into finished product UV solidified resin.

4. offset litho printing ink according to claim 1, which is characterized in that the preparation process of the filler includes following step It is rapid:

SS1, kaolin is added in Muffle furnace, it, will be high after roasting in 1000-1100 DEG C of roasting temperature 2-2.5h Ridge soil takes out cooling stand-by；

After SS2, the pH to 3.5-4 by inorganic acid adjusting deionized water, silane coupling agent is added thereto, stirs clear to solution Clear bright, wherein the volume ratio of silane coupling agent and deionized water is 1:2-2.5, obtains silane coupling agent hydrolyzate；

SS3, mass concentration is prepared as the potassium chloride deionized water solution of 0.2%-0.35% and is heated to boiling, according to weight Amount part takes K-type carragheen to be added in the deionized water solution of the potassium chloride, adjusts its pH to 7, is cooled to 95- after boiling 10min After 98 DEG C and 8-15min is kept the temperature, wherein the mass ratio of the deionized water solution of carragheen and potassium chloride is 1:15-20；

SS4, the carrageenan solutions for taking previous step to obtain, stirring be cooled to 70-80 DEG C after keep the temperature and adjust speed of agitator to 300-400r/min is slowly added into silane coupling agent hydrolyzate obtained in step SS2 thereto, complete to silane coupled hydrolyzate After full addition, stops stirring and being cooled to 5-10 DEG C, obtain coagulated colloid structure, wherein carrageenan solutions and silane coupling agent water The volume ratio for solving liquid is 2.5-4:1, coagulated colloid is ground into uniform small particles, the partial size of coagulated colloid particle is 2-3mm；

SS5, the kaolin for obtaining step SS1 are added in blender, adjust revolving speed to 300-400r/min, are added thereto Coagulated colloid particle obtained in one step, after colloidal solid to be solidified is added completely into, promoted revolving speed to 600-800r/min after It is continuous to stir 5-8min, guarantee that temperature of charge is no more than 10 DEG C in whipping process, the mixture stirred to get is added in ball mill Modified kaolin is obtained after ball milling 20-50min, wherein ratio of grinding media to material be 2-3.5:1, revolving speed 250-350r/min, kaolin with The weight ratio of coagulated colloid particle is 10:0.5-2；

SS6, by modified kaolin that previous step obtains 110-120 DEG C at a temperature of baking and curing after crushed 200-400 Mesh obtains filler.

5. the preparation process of offset litho printing ink, which comprises the steps of:

It is melted Step 1: weighing agitating and heating after UV solidified resin, filler, polymerization inhibitor are mixed with photoinitiator according to parts by weight, It is uniformly mixed；

Step 2: pigment, antiwear assistant and lubricating grease are added in the molten mixture obtained suddenly one step up, it is sufficiently stirred point Ink intermediate is made after dissipating；

Step 3: will ink intermediate be added grinding device in carry out grinding so that ink is reached regulation fineness after obtain finished product lithographic plate Offset ink.