CN108137966A - For the printing ink composition of non-absorbent surface - Google Patents

Abstract

According on one side, a printing ink composition includes a colorant, one or more polymer (such as polyurethane siloxane), a surfactant, water and a solvent.The total solids content of the printing ink composition is less than about 20wt%.In addition, initial surface tension of the ink when applying is less than about 50 dynes per centimeters, and surface tension increase when drying is not to be exceeded 20%.

Description

For the printing ink composition of non-absorbent surface

Technical field

This patent disclosure relates generally to printing ink composition, more particularly relate to one can on non-absorbent surface high print duplication Printing ink composition in the print system of brush.

Background technology

Water-based ink is used for limited commercial printing application in printing industry.The increased portion of water-based ink usage amount Divide is due to the environmental problem of generation volatile organic compounds (VOC) when solvent-based ink is dried.For in paper and other Printing application in absorbent surfaces, moisture are absorbed by surface portion, this causes ink quickly to dry after printing.For non- Absorbent surfaces, the use of water-based inks generate performance issue sometimes, in addition, when ink is located at the top on surface, it more difficult to Rapidly to dry these ink.

For using the printing technology of water-based ink, usual coating paper is to prevent paper from deforming in the presence of water.These are applied The paper of cloth is still absorbability to a certain extent, allows aqueous carrier partial penetration surface.Aqueous based carrier is maintained at table Non-absorbent surface on face includes plastic foil, metal film and similar surface.In these surfaces, after the printing, to print Brush material is heat-treated to remove carrier or be exposed to ultraviolet light, but if the physical property of printing ink composition is helpless to oil On the surface, the ink performance in printing process and after printing can be poor for ink attachment.In such a case, it is desirable to nonabsorbable Image on surface has long-term durability.Long durability refers to that ink retains on the final product and resists moisture and connects Touch, highlight, rubbing, scraping and other abrasion ability.In printing process, when printing product is moved through high speed printing When the subsequent roller and/or other elements of machine, there is the trend interfered by shear stress in ink.

Invention content

An embodiment according to the present invention, water-based ink include：About 3 to about 15wt% one or more polymerizations Object；About 0.5 to about 12wt% one or more colorants；About 5 to an about 35wt% solvent；About 0.03 to about 1.0wt% A pH adjusting agent；About 50 to about 80wt% water wherein the viscosity of the water-based ink is about 1 to about 20mPas, makes The non-absorbent surface into one layer can be applied by obtaining the water-based ink.

Aspect 2：Water-based ink described in aspect 1, wherein the viscosity is about 4 to about 14mPas.

Aspect 3：Water-based ink described in any one of aspect 1 and 2, wherein one kind in one or more polymer It is urethanes silanol.

Aspect 4：Water-based ink described in any one of aspect 1~3 further includes about 0.1 to an about 5wt% table Face activating agent.

Aspect 5：Water-based ink described in any one of aspect 1~4 further includes about 1 to an about 20wt% friendship Join agent.

Aspect 6：Water-based ink described in any one of aspect 1~5, wherein the crosslinking agent is one isocyanate-crosslinked Agent.

Aspect 7：Water-based ink described in any one of aspect 1 to 6, wherein one kind in one or more polymer It is a self-crosslinking urethanes silanol.

Aspect 8：Water-based ink described in any one of aspect 1~7, wherein the solvent is selected from 1- (2- ethoxys) -2- It is one or more in pyrrolidones, alcohol, polyalcohol, glycerine and glycol.

Aspect 9：Water-based ink described in aspect 5, wherein the surfactant is an ethoxylation molecule.

Aspect 10：Water-based ink described in any one of aspect 1~9, wherein the pH adjusting agent is dimethylethanolamine.

Aspect 11：Water-based ink described in any one of aspect 1~10, wherein dynamic of the ink under 25 degrees Celsius Surface tension is about 20 to about 45 dynes per centimeters.

Aspect 12：A kind of ink, it includes：About 0.5 to an about 10wt% epoxy resin；About 4 to the one of about 30wt% Solvent；With one or more metallochromes, wherein the viscosity of the ink is about 1 to about 20mPas so that the ink The non-absorbent surface into one layer can be applied.

Aspect 13：Ink described in aspect 12, wherein the viscosity is about 4 to about 14mPas.

Aspect 14：Ink described in any one of aspect 1277 and 13, wherein the solvent is dimethyl sulfoxide.

Aspect 15：Ink described in any one of aspect 12~14, wherein the epoxy resin is a bisphenol-A asphalt mixtures modified by epoxy resin Fat.

Aspect 16：Ink described in any one of aspect 12~15, wherein dynamic table of the ink under 25 degrees Celsius Face tension is about 20 to about 35 dynes per centimeters.

Aspect 17：A kind of method for high speed variable printing includes the following steps：One water-based ink is provided, it is described Water-based ink includes：About 3 to about 15wt% one or more polymer；About 0.5 to an about 12wt% pigment；About 5 to about A solvent of 35wt%；About 0.03 to an about 1.0wt% pH adjusting agent；About 50 to about 80wt% water, wherein the water The viscosity of property ink is about 1 to about 20mPas；With the non-absorbent substrates being applied to the water-based ink in first layer On.

Aspect 18：Method described in aspect 17, the method is further included is applied to other multiple layers by the water-based ink In step.

Aspect 19：Method described in any one of aspect 17 and 18, wherein the water-based ink also includes about 0.1 to about A surfactant of 5.0wt%.

Aspect 20：Method described in any one of aspect 17~19, the method further includes heating so that the water One or more crosslinked polymers of property ink.

A printing ink composition includes a colorant according to another aspect, one or more polymer (include polyurethane silica Alkane), water and a solvent.The total solids content of the printing ink composition is less than about 20wt%.In addition, the ink application when Initial surface tension is less than about 50 dynes per centimeters, and surface tension increase when drying is not to be exceeded 20%.

The printing ink composition for being adapted for application to a non-absorbent surface according to another aspect, includes about 0.5wt% to about A colorant of 12wt%, a polyurethane siloxane and a water-based solvent of about 3wt% to about 15wt%.In addition, the ink Initial surface tension when applying is less than about 50 dynes per centimeters, and surface tension increase when drying is not to be exceeded 20%.

A printing ink composition includes a colorant, an epoxy resin and an aprotic solvent according to another aspect,.The oil Ink can additionally comprise a metallic pigments, and the initial surface tension in application is less than about 40 dynes per centimeters, and when drying Surface tension increase is not to be exceeded 20%.

By considering following detailed description and drawings, other aspects and advantages of the present invention will be apparent, wherein Identical numerical chracter represents identical structure in the whole instruction.

Specific embodiment

The printing ink composition of the application includes a colorant, a polyurethane siloxane, a solvent, water and an optional crosslinking Agent.The total solids content of the printing ink composition is less than about 20wt%, and the weight ratio of the colorant and polyurethane is about 2：1~ 1：2.In addition, initial surface tension of the ink in application is less than about 50 dynes per centimeters, and surface tension when drying Increase is not to be exceeded 20%.

This printing ink composition is suitable for various high speed printing systems.One nonabsorbable printed medium, such as metal foil, pottery Porcelain, plastics, height coating paper or other similar substrates receive ink using various printing processes.

The printing ink composition has a viscosity, printing ink composition can be applied to substrate using various printing processes On.Range of viscosities can be from about 1.0 to 20.0cP, and preferably from about 4.0 to about 6.0cP, and preferred viscosities may depend in part on The requirement of used print system.

One importance of the present composition is that the initial surface tension of the ink is less than 50 dynes per centimeters. Under this surface tension, the ink will be suitably dispersed on non-absorbent surface.The surface tension is preferably smaller than 40 and reaches Because/centimetre.The surface tension of ink will not dramatically increase when another importance is dry.If have been found that dry Surface tension variations are excessive, then physical property of the ink on non-absorbent surface reduces.Particularly, if surface is opened when dry Power variation is excessive, and more than 20%, then the solvent resistance of the ink on non-absorbent surface, rub resistance and levelability cannot enable People is satisfied with.

The suitable surfactant for providing above-mentioned surface tension properties is included by silicones, ethylene oxide (EO) and epoxy The non-ionic compound of propane (PO) composition, is such as purchased from Momentive Performance Products (New York Albany) Silwet Hydrostable 212, fluorinated nonionic surfactants, such as be purchased from Croda Industrial Multiwet VE-LQ- (AP) of Chemicals (England east Yorkshire) etc..These surfactants can with about 0.1 to 3.0wt%, the amount more preferably less than 1.0wt% exist.

In other embodiments, surfactant or surface modifier can include such as nonionic surfactant, Such as poloxamer, ethoxylated acetylenic glycol, ethoxylated alcohol or other ethoxylated surfactants.Any kind of surface Activating agent may include with the property needed for assigning in the printing ink composition, including anionic, non-ionic, cationic Type or other kinds of surfactant.In addition, levelling agent can also act as surface modification when its content is up to about 2.5wt% Agent.

The ethoxylated acetylenic diol-based surfactants used is suitble to include Air Products'400 Series of surfactants：Respectively420th, 440,465 and 485.Air Products' (Allentown, PA)400 series of surfactants are by making different amounts of ethylene oxide and 2,4,7,9- tetramethyl -5- decine -4,7- Glycol be (Air Products' 104, it is a kind of among two symmetrical hydrophobic groupings with hydrophilic segment it is non-from Subtype molecule) react obtained.

The ethoxylation based surfactants used is suitble to include Air Products' (Allentown, PA)Series of surfactants.Ethoxylated alcohol is by ethylene oxide and chain length in C₉~C₁₅Range The base catalyzed condensation of interior alcohol reacts to prepare.

In one embodiment, the printing ink composition can be in the heating ring of about 120 degrees Fahrenheits (about 50 degrees Celsius) It is printed under border.

In another embodiment, printing ink composition can be printed onto in substrate and be heated by pressing plate.The pressure Plate can be heated to the temperature of about 100 degrees Fahrenheits (about 40 degrees Celsius) or the temperature of about 120 degrees Fahrenheits (about 50 degrees Celsius).So Substrate is heated to more than the temperature about ten minutes of 220 degree of Fahrenheit (about 100 degrees Celsius) afterwards to unseal and realize crosslinking.Then By ink solidification 10 minutes under about 300 degrees Fahrenheits (about 150 degrees Celsius).

Suitable thickness is obtained by printing multilayer before curing.The printing ink composition can be arranged to thickness and exist Layer in about 5 microns to about 15 micron ranges.Desired ink thickness can be by the way that multilayer ink to be printed onto in substrate to obtain .In some embodiments, the thickness can be preferably up to about 30 layers, more excellent by printing up to about 50 layers in substrate Up to about 15 layers of ink is selected to obtain, although the quantity of layer depends on various factors, for example, the selected mode for applying ink, The fluid-solid content and mass flowrate of printing ink composition.

Polymer (polyurethane siloxane) serves as adhesive to stablize the colorant on printed medium and make final products Long durability enhances.Instant durability refers to that printing ink composition is rapidly incorporated into printed medium and can pass through high speed printing Machine and be not transfer to the ability in printer elements.

The polymer for being suitable for the printing ink composition of the application includes with silanol group or can be prepared by hydrolyzing The ester-polyurethane resin emulsion of the group of silanol group, this polyurethane resin are included by Mitsui Chemicals, Inc (Japan Tokyo) manufactureWS-5000、WS-5100、WS-4000 andWS- 6021.These are self-crosslinkable polyurethane dispersions, as moisture evaporation forms siloxanes key.Polymer can by heating and/ Or it hydrolyzes and self-crosslinking.Polymer can also be crosslinked by one or more crosslinking agents or catalyst.

In certain embodiments, suitable crosslinking agent includes the isocyanates of sealing end, and heating can be crosslinked.Properly Crosslinking agent be Baxenden Chemicals Limited (Lancashire, England)Aqua BI 201.This crosslinking agent unseals between 110 to 120 degrees Celsius.

Certain embodiments include epoxy adhesive.Suitable epoxy resin includes Dow Chemical Company The DER 684-EK40 of (Midland, Michigan).The resin is by making epoxychloropropane form bisphenol-A with bisphenol-a reaction Diglycidyl ether and formed.

The colorant can be commercially available any convention pigment or dyestuff.The example of suitable colorant include but It is not limited to：Carbon black colorant, such as the Pro- of FujiFilm (New Castle, DE)Black APD1000；Magenta Toner, such as the Cab-O- of Cabot Corp. (Boston, MA)465；Cyan colorant, as Cabot Corp. (Boston, MA Cab-O-)450 or 452；Or yellow colorants, such as the Cab-O- of Cabot Corp. (Boston, MA) 470；The opaque infrared transmission dyestuff of vision, the Epolight of such as Epolin, Inc. (Newark, New Jersey) 7527A；The white color agents being made of titanium dioxide, as Lever Colors' (Bensalem, Pennsylvania) Cyclojet White Ti-7510 and Cyclojet White TI-7530；Opacifier, as Grace (Columbia, Maryland)AS 40；With the metallochrome containing aluminium, silver or gold, such as Eckart GmbH (Hartenstein, Germany)SB11025 andSB11028。

The opaque infrared transmission dyestuff of the vision (such as Epolight 7527A) should transmit the wavelength more than 80% Light more than 850nm, and the wavelength that should transmit 5-15% is less than the light of 550nm.

The total solids content of the printing ink composition is less than about 20wt%.The printing ink composition can include about 0.5 to about A colorant of 12wt% and about 3 to about 15wt% a polymer (polyurethane siloxane) and a crosslinking agent.Colorant is opposite It can be about 2 in the ratio of polymer and crosslinking agent：1 to about 1：In the range of 2.

Printing ink composition described herein can comprise water as solvent.The composition can also include water-soluble organic Compound is as cosolvent.Suitable water solubility or miscible organic component includes：Glycerine；Alcohols, such as methanol, ethyl alcohol, positive third Alcohol, isopropanol, n-butanol, sec-butyl alcohol or the tert-butyl alcohol；Amides, such as dimethylformamide or dimethylacetylamide；Carboxylic acid；Ester Class, such as ethyl acetate, methyl lactate, ethyl lactate, propyl lactate and ethylene carbonate；Ethers, such as butoxy ethanol, tetrahydrochysene Furans or dioxane；Glycols, such as propylene glycol and diethylene glycol (DEG)；Diol ester；Glycol ethers, such as propylene glycol monomethyl ether, dipropylene glycol Methyl ether；Ketone, such as acetone, diacetone or methyl ethyl ketone；Lactams, such as acyl in N- isopropyls caprolactam or N- ethyls penta Amine, 2-Pyrrolidone, N-Methyl pyrrolidone or N- (2- ethoxys) -2-Pyrrolidone；Lactone, such as butyrolactone；Organic sulfur Compound；Sulfone class, such as dimethyl sulfoxide (DMSO)；Organic sulfoxide, such as dimethyl sulfoxide (DMSO) or tetramethylene sulfoxide；And its derivative is mixed with it Object.

In printing ink composition other be expected components include a solvent, a preservative (such as Arch Biocides (Smyrna, GA)GXL), a moisturizer (such as propylene glycol), a biocide, a colorant, a polymer, a levelling agent, one Salt, an inorganic compound, an organic compound, water, a viscosity modifier (such as Dow Chemical Company (Midland, MI)CRT30), a pH adjusting agent (such as diethanol amine or triethanolamine) and/or its arbitrary combination.

The present invention is further illustrated in following embodiment, but should not be construed as what is limit the invention in any way certainly Range.

Embodiment 1

It prepares for the black ink composition of the present invention, with following formulas：

35.7wt% carbon black dispersions (Fuji APD 1000Carbon Black) (14% solid),

The deionized water of 28.4wt%,

19.0wt% polymeric dispersions (AC WS-4000) (29% solid),

The moisturizer (2- hydroxyethyl-pyrrolidones) of 15.0wt%,

1.0wt% polymeric dispersions (AC WS-5000) (30% solid),

0.8wt% surfactants (Hydrostable 212) and

The pH adjusting agent (dimethylethanolamine) of 0.08wt%

Water and hydroxyethyl-pyrrolidone (HEP) are vigorously mixed and are slowly added into very much polymer, pH adjusting agent and face Material.Later, surfactant is added in.By additional a period of time be vigorously mixed the time after, it is common with Printing ink producing field Typical filter system known to technical staff is by ink fine filtering.

Viscosity of the ink under 32 degrees Celsius is 5.13cP, pH 9.08.As measured by using SensaDyne tensometers , the surface tension under 25 degrees Celsius is 36.0 dynes per centimeters.

Embodiment 2

It prepares for the black infrared transmission printing ink composition of the present invention, is formulated as follows：

42.9wt% deionized waters,

25.0wt% polymeric dispersions (AC WS-4000) (solid content 29%),

17.0wt% moisturizer (2- hydroxyethyl-pyrrolidones),

10.0wt% colloidal silica dispersions (AS-40) (solid content 40%)),

The opaque infrared transmission dye solution (hydroxyethyl hydroxyethyl of 20%Epolight 7527A of 5.0wt% visions Ketone solution) and

0.1wt%pH conditioning agents (dimethylethanolamine)

Dye solution and HEP are vigorously mixed and are slowly added into very much polymer.After one section is vigorously mixed, add in Deionized water.Then, pH adjusting agent is added in, then adds in crosslinking agent.After mixing a period of time, silica dispersion is added in, Ink is filtered after being vigorously mixed using one section.

Viscosity of the ink under 32 degrees Celsius is 4.50cP, pH 9.72.Surface tension at 25 degrees Celsius is reached for 56.0 Because/centimetre.

Embodiment 3

It prepares for the first white ink composition of the present invention, is formulated as follows：

33.7wt% deionized waters,

19.7wt% moisturizer (2- hydroxyethyl-pyrrolidones),

14.8wt% titanium oxide dispersion (Cyclojet White TI-7510),

12.7wt% polymeric dispersions (AC WS-4000) (solid content 29%),

11.9wt% cross-linking agent dispersions (BI 201) (solid content 40%),

6.4wt% colloidal silica dispersions (AS-40) (solid content 40%),

0.4%pH conditioning agents (dimethylethanolamine, 50% aqueous solution),

0.3wt% surfactants (Hydrostable 212) and

0.3wt% preservatives (GXL)

Titanium oxide dispersion and silica dispersion are slightly mixed, and are slowly added into very much polymer and crosslinking Agent.After slight mixing, deionized water, HEP and preservative are added in, again after slight mixing, adds in pH adjusting agent.Then, it adds in Surfactant filters ink after mixing.

The solid content of printing ink composition is 16.4% solid.Viscosity of the liquid ink at 32 degrees Celsius is 4.92cP, pH 9.2.Surface tension at 25 degrees Celsius is 43.68 dynes per centimeters.

Embodiment 4

It prepares for the second white ink composition of the present invention, is formulated as follows：

44.5wt% deionized waters,

23.4wt% polymeric dispersions (AC WS-4000) (solid content 29%),

15.4wt% titanium oxide dispersion (Cyclojet White TI-7530),

7.7wt% moisturizer (2- hydroxyethyl-pyrrolidones),

3.0wt% surface tension modifiers (2- butoxy ethyl ketone),

3.4wt% moisturizer (ethylene glycol),

1.7wt% levelling agents (Hydrostable 212),

0.7wt% surfactants (465),

0.1wt%pH conditioning agents (dimethylethanolamine) and

0.08wt% preservatives ((GXL)

The solid content of printing ink composition is 14.7%.Viscosity of the liquid ink at 32 degrees Celsius is 6.03cP, and pH is 8.6.Surface tension at 25 degrees Celsius is 31.44 dynes per centimeters.

Embodiment 5

It prepares for the metal ink composition of the present invention, is formulated as follows：

85.4wt% aluminium dispersions (EckartSB11028),

9.5wt% solvents (dimethyl sulfoxide) and

(DER 684-EK40 epoxy resin, 20%) solid content in dimethyl sulfoxide is to 5.1wt% polymer solutions

Aluminium dispersion, polymer and aprotic solvent are slightly mixed.After slight mixing a period of time, ink is filtered.

The solid content of printing ink composition is 4%.Viscosity of the ink at 32 degrees Celsius is 4.98cP.At 25 degrees Celsius Dynamic surface tension is 31.8 dynes per centimeters, and static surface tension is 29.7 dynes per centimeters.

All formulas of Examples 1 to 5 are all generated with acceptable instant and long durability valuable printing Ink.

Industrial feasibility

All references cited herein is hereby incorporated herein by (including publications, patent applications and patents) In, degree individually and is particularly pointed out such as each bibliography and is incorporated by reference into and completely explains herein It states.

(particularly in the following claims) uses in the description of the present invention term " one ", "one" and " described " and similar reference are to be interpreted as covering odd number and plural number, unless otherwise indicated or significantly and contradicted by context. Unless otherwise stated, the numberical range enumerated herein be only one be individually recited fall into the range it is each individually The simplification method of numerical value, each individually numerical value is incorporated in specification, as they are individually enumerated herein.It retouches herein All methods stated can perform in any suitable order, unless otherwise indicated herein or be apparently contradicted in the context. Unless stated otherwise, otherwise provided herein is any and all embodiment or the use of exemplary language (for example, " such as ") only anticipate The present invention is being better described, and without limitation on the scope of the present invention.Any language in specification is all not necessarily to be construed as Indicate any element being not claimed, this is essential for the practice of the present invention.In view of the explanation of front, to this hair Bright many modifications will be apparent those skilled in the art.It should be understood that embodiment described is only Illustratively, it is not construed as limiting the scope of the invention.

Claims (according to the 19th article of modification of treaty)

1. a water-based ink, it includes：

About 3 to about 15wt% one or more polymer；

About 0.5 to about 12wt% one or more colorants；

About 5 to an about 35wt% solvent；

About 0.03 to an about 1.0wt% pH adjusting agent；With

About 50 to about 80wt% water, wherein the viscosity of the water-based ink about 1 is to about 20mPas so that the water-based ink The non-absorbent surface into one layer can be applied, one kind in one or more of which polymer is urethanes silicon Alkanol, wherein the pH adjusting agent is dimethylethanolamine, wherein the solvent includes ethylene glycol and wherein described ink 25 Dynamic surface tension under degree Celsius is about 20 to about 45 dynes per centimeters.

2. water-based ink according to claim 1, which is characterized in that the viscosity is about 4 to about 14mPas.

3. water-based ink according to claim 1, which is characterized in that further include about 0.1 to an about 5wt% surface Activating agent.

4. water-based ink according to claim 1, which is characterized in that further include about 1 to an about 20wt% crosslinking Agent.

5. water-based ink according to claim 4, which is characterized in that the crosslinking agent is an isocyanate crosslinking.

6. water-based ink according to claim 1, which is characterized in that one kind in one or more polymer is certainly Crosslinking urethane ethyl ester silanol.

7. water-based ink according to claim 1, which is characterized in that the solvent is selected from 1- (2- ethoxys) -2- pyrroles It is one or more in alkanone, alcohol, polyalcohol, glycerine and glycol.

8. water-based ink according to claim 4, which is characterized in that the surfactant is an ethoxylation molecule.

9. an ink, it includes：

About 0.5 to an about 10wt% epoxy resin；

About 4 to an about 30wt% solvent；With

One or more metallochromes, wherein the viscosity of the ink is about 1 to about 20mPas so that the ink can be with Apply to the non-absorbent surface in one layer.

10. ink according to claim 9, which is characterized in that the viscosity is about 4 to about 14mPas.

11. ink according to claim 9, which is characterized in that the solvent is dimethyl sulfoxide.

12. ink according to claim 9, which is characterized in that the epoxy resin is a bisphenol A epoxide resin.

13. ink according to claim 9, which is characterized in that dynamic surface tension of the ink under 25 degrees Celsius It is about 20 to about 35 dynes per centimeters.

14. a kind of method for high speed variable printing includes the following steps：

A water-based ink is provided, the water-based ink includes：

About 3 to about 15wt% one or more polymer；

About 0.5 to an about 12wt% pigment；

About 5 to an about 35wt% solvent；

About 0.03 to an about 1.0wt% pH adjusting agent；With

About 50 to about 80wt% water, wherein the viscosity of the water-based ink is about 1 to about 20mPas, one or more of which One kind in polymer is urethanes silanol, wherein the pH adjusting agent is dimethylethanolamine, wherein described molten Agent is about 20 to about 45 dynes per centimeters including the dynamic surface tension of ethylene glycol and wherein described ink under 25 degrees Celsius；With

The water-based ink is applied on the non-absorbent substrates in first layer.

15. according to the method for claim 14, which is characterized in that the method, which further includes, is applied to the water-based ink Step in other multiple layers.

16. according to the method for claim 14, which is characterized in that the water-based ink also includes about 0.1 to about 5.0wt% A surfactant.

17. according to the method for claim 14, which is characterized in that the method further includes heating so that described aqueous One or more crosslinked polymers of ink.

Claims (20)

1. a water-based ink, it includes：

About 3 to about 15wt% one or more polymer；

About 0.5 to about 12wt% one or more colorants；

About 5 to an about 35wt% solvent；

About 0.03 to an about 1.0wt% pH adjusting agent；With

About 50 to about 80wt% water, wherein the viscosity of the water-based ink about 1 is to about 20mPas so that the water-based ink The non-absorbent surface into one layer can be applied.

2. water-based ink according to claim 1, which is characterized in that the viscosity is about 4 to about 14mPas.

3. water-based ink according to claim 1, which is characterized in that one kind in one or more polymer is ammonia Base Ethyl formate silanol.

4. water-based ink according to claim 1, which is characterized in that further include about 0.1 to an about 5wt% surface Activating agent.

5. water-based ink according to claim 1, which is characterized in that further include about 1 to an about 20wt% crosslinking Agent.

6. water-based ink according to claim 5, which is characterized in that the crosslinking agent is an isocyanate crosslinking.

7. water-based ink according to claim 1, which is characterized in that one kind in one or more polymer is certainly Crosslinking urethane ethyl ester silanol.

8. water-based ink according to claim 1, which is characterized in that the solvent is selected from 1- (2- ethoxys) -2- pyrroles It is one or more in alkanone, alcohol, polyalcohol, glycerine and glycol.

9. water-based ink according to claim 5, which is characterized in that the surfactant is an ethoxylation molecule.

10. water-based ink according to claim 1, which is characterized in that the pH adjusting agent is dimethylethanolamine.

11. water-based ink according to claim 1, which is characterized in that dynamic surface of the ink under 25 degrees Celsius Tension is about 20 to about 45 dynes per centimeters.

12. an ink, it includes：

About 0.5 to an about 10wt% epoxy resin；

About 4 to an about 30wt% solvent；With

One or more metallochromes, wherein the viscosity of the ink is about 1 to about 20mPas so that the ink can be with Apply to the non-absorbent surface in one layer.

13. ink according to claim 12, which is characterized in that the viscosity is about 4 to about 14mPas.

14. ink according to claim 12, which is characterized in that the solvent is dimethyl sulfoxide.

15. ink according to claim 12, which is characterized in that the epoxy resin is a bisphenol A epoxide resin.

16. ink according to claim 12, which is characterized in that dynamic surface tension of the ink under 25 degrees Celsius It is about 20 to about 35 dynes per centimeters.

17. a kind of method for high speed variable printing includes the following steps：

A water-based ink is provided, the water-based ink includes：

About 3 to about 15wt% one or more polymer；

About 0.5 to an about 12wt% pigment；

About 5 to an about 35wt% solvent；

About 0.03 to an about 1.0wt% pH adjusting agent；With

About 50 to about 80wt% water, wherein the viscosity of the water-based ink is about 1 to about 20mPas；With

The water-based ink is applied on the non-absorbent substrates in first layer.

18. according to the method for claim 17, which is characterized in that the method, which further includes, is applied to the water-based ink Step in other multiple layers.

19. according to the method for claim 17, which is characterized in that the water-based ink also includes about 0.1 to about 5.0wt% A surfactant.

20. according to the method for claim 17, which is characterized in that the method further includes heating so that described aqueous One or more crosslinked polymers of ink.