DE102006004341A1 - Non-absorbent substrate or carrier material pre-treatment and/or pre-coating method for ink jet printing, involves providing pre-treatment solution that induces inhibition of ink flow applied to substrate with relation to color distribution - Google Patents

Abstract

The method involves subjecting water based inks to a pre-treatment solution (3) provided on a substrate (1) and an initiator is provided in the pre-treatment solution. The pre-treatment solution physically or chemically induces an adequate rapid inhibition of flow of ink that is applied to the substrate and/or a support material with relation to a defined color distribution. Independent claims are also included for: (a) composition of the pre-treatment solution; and (b) ink composition.

Description

The The present invention relates to a pretreatment and / or precoating of non-absorbent Substrates and / or non-absorbent Support materials in particular of plastics, metals, glass for ink printing, inkjet printing with water-based ink with a pretreatment solution and / or Coating.

nowadays are low viscosity inks for inkjet printing, inkjet printing used essentially as water-based inks are constructed. Their course is determined by the nature of the Substrate or of the carrier material controlled. It is common disadvantageous that the printing ink or ink is changing Substrates and substrates, at changing Printing speeds and changing compositions the ink runs differently or tears and the label blurs, not sufficient sticks and the typeface or the imprint by the flow behavior becomes blurred. The conventional one Inkjet printing is a non-contact Form of digital printing, in which printing inks in individual units of volume, or drops decomposed, time and place dependent on any substrate or support material be applied.

Of the Inkjet printing also includes, among others, the continuous working ink jet printing (Continuous Ink Jet, CIJ), the discontinuous working, thermally or piezoelectrically activated ink pressure (Drop on demand, DoD), as well as electronically controlled spraying techniques, such as Air Brush.

For the color jet printing become dependent from the color order system different colored inks within a raster printed side by side, the raster being the resolution of the Determined pressure. It goes that on the substrate or the substrate printed ink depending on from between the applied ink and the substrate Trained interfacial tension as well as in dependence from the structure of the carrier material or substrate itself. The running speed is determined by the flowability the printed ink determined in the course of film formation.

Of the The course of the ink or ink in turn determines the area coverage and the color distribution so that the ink is the substrate or the support material in the sense of a high degree of coverage preferably entire area wetted and distributed as evenly as possible in the sense of a homogeneous color distribution, without interlocking in the sense of a defined color distribution and to mix what is undesirable.

Low viscosity Inks for the inkjet printing, the film formation time of the solvent evaporation is determined make in terms of a good print quality control the for the course of the ink significant influencing factors, such as interfacial tension and flowability necessary. This control is insufficiently solved.

The print quality becomes conventional in terms of a suitable interfacial tension a chemical pretreatment (cleaning, pickling, chromating, phosphating, Paint stripping, oxyfluorination), a physical pretreatment (flame treatment, Corona discharge, plaque treatment) or a permanent coating or precoating controlled in the sense of a high coverage and a homogeneous color distribution, a wetting surface tension ensures. The conventional ones Methods of controlling interfacial tension are not universal can be used but to a large extent substrate-specific.

on the other hand we print quality conventionally controlled by it in the sense of a suitable leveling behavior that the decrease in fluidity the applied, low-viscosity ink in the course of film formation physically (heat drying, Convection drying) or photophysical (W drying) accelerated is going to be a running into each other and mixing the ink in the sense to prevent a defined color distribution. This is in the Usually a high technical effort connected.

The object of the invention is to provide universal pretreatments or precoat for non-absorbent substrates or substrates such as plastics, metals and glass, if necessary Lich, ensure wetting in the sense of a high degree of coverage and a homogeneous color distribution wetting surface tensions, and to provide inks that are applied to such pretreatments or precoat in the sense of a defined color distribution intermeshing or mixing the applied volume units. With these pretreatments or precoatings, precise control of the flowability of the inks, the film formation, the pigment mobility and, if required, the interfacial tension should be universally possible without great technical effort.

to solution lead this task the features of the license plate of claim 1 and the sibling Claims.

at The present invention has proven particularly advantageous. a temporary one or permanent pre-coating, in particular a coating on a non-absorbent Substrate or substrate before applying the ink, which is suitable the fluidity the applied ink, for example, triggered by flocculation or Sufficiently to reduce agglomeration and / or hardening or to initiate a polymerization of the applied ink.

Further should contain the colorants contained in the ink the coating or on the carrier material or substrate permanently fixed.

It has proven to be particularly advantageous to choose a coating which has at least one initiator and, if necessary, at least one surfactant. The initiator is preferably a monomeric, oligomeric or polymeric acid or a polyvalent metal salt, such as CaCl ₂ or Ca (OH) ₂ .

Of the surfactants The substance is preferably a monomeric, oligomeric or polymeric Surfactant or a hydrocolloid. So are emulsifiers, wetting agents and dispersing agents.

The flow behavior of the ink deposited on the pretreated substrate and / or on the coating can be controlled precisely via the pK _s value of the coating or via the pK _s value of the initiator if acrylates, such as, for example, polyacrylates and / or polymethacrylates are added whose solubility is pH-dependent. The acidic effect of the initiator can additionally serve to control the flowability of the applied ink for triggering a subsequent curing, in particular a subsequent thermal curing, under which the applied ink crosslinks. For the crosslinking reaction, amino resins have proven themselves together with cobinders, even low molecular weight cobinders.

On this way is an exact control of the flow behavior of the Ink possible. Under the influence of acid Immediately compresses the applied ink.

As a result, it is possible to influence the flow behavior of the applied ink and the hardening of the film to be formed in accordance with the pK _s value of the initiator.

Further Advantages, features and details of the invention will become apparent the following description of preferred embodiments and by reference the drawing; this shows in

1 a schematically illustrated side view of a substrate and / or carrier material, coated with a novel precoating, which is printed by means of ink printing or inkjet printing;

2 a schematically illustrated side view of a pretreatment of a substrate and / or carrier material, provided with a coating according to the invention on which is printed by ink printing or ink jet printing, as a further embodiment.

According to 1 has a substrate 1 and / or carrier material 2 in the present invention, a coating according to the invention 3 on that with the substrate 1 or carrier material 2 can be applied in any coating method.

The inventive coating 3 serves to influence the flow behavior of a water-based ink 4 , applied by means of ink printing or inkjet printing and / or curing thereof.

The ink 4 is applied to the coating by conventional methods, ink printers, ink jet printers 3 or on the substrate 1 and / or carrier material 2 applied.

As a substrate 1 or carrier material 2 Any non-absorbent materials such as plastics, metals, composite materials, films, glass od. Like. Can be used.

Further, the coating becomes 3 by coating methods, such as dipping, rolling, casting, flooding, printing as non-atomizing coating methods on the substrate 1 and / or carrier material 2 applied or applied. However, other coating methods, such as spray coating methods by spraying, spraying of liquid coatings, compressed air spraying, airless or high pressure spraying methods, as well as electrostatic spraying or powder coating methods, are also possible for coating 3 with the carrier material 2 connect to.

It should be within the scope of the present invention that the ink 4 the inkjet print or ink print on the coating 3 time or space dependent before applying the ink 4 (inline) on the substrate 1 or carrier material 2 is applied. However, it should also be within the scope of the present invention that the ink 4 independent of the time of application of the coating 3 on the substrate 1 or carrier material 2 is applied, optionally by means of a tempering device 5 the on the coating 3 or on the substrate 1 applied ink 4 can be heat treated.

It has proved to be particularly advantageous in the present invention that the coating 3 is made or formed from at least one initiator and at least one surfactant. In this way, in the sense of a defined color distribution, a sufficiently rapid reduction or reduction in the flowability of the coating on 3 and / or substrate 1 respectively.

support material 2 applied ink 4 be carried out or chemically induced. In this case, the coating 3 consisting of initiator and surfactant wholly or partially volatile or be soluble in the applied ink. The ink 4 connects to the on the substrate 1 or on the carrier material 2 applied coating 3 ,

It has proved to be advantageous as part of the coating 3 as surfactant to use a monomeric, oligomeric or polymeric surfactant, preferably anionic surfactants, cationic surfactants, amphoteric surfactants or Miotenside. As a surfactant and hydrocolloids can be used.

there can the surfactants emulsifiers, wetting agents and dispersants. The Hydrocolloids can also be dispersant.

The essential ingredient in the present coating is the initiator, which is formed as an acid, in particular as a monomeric, oligomeric or polymeric acid. The initiator used is preferably a monofunctional or polyfunctional carboxylic acid which has a pK _s value of -6 to 15. In this case, the initiator, which is preferably kept acidic, brings about a reduction in the solubility of at least one component of the material onto the substrate 1 or carrier material 2 , in particular to the coating 3 applied ink 4 , The coating 3 or the acidic initiator can be used to flocculate a polymeric component or a coloring component or to agglomerate pigments and thus immobilize them onto the substrate 1 applied ink 4 to lead..

In addition, the initiator may at least partially or completely initiate polymerization of the coating 3 or on the substrate 1 and / or carrier material 2 applied ink 4 trigger.

Furthermore, it has proved to be advantageous in the present invention that an ink 4 is used, which in addition to the volatile constituents has an at least partially polymerizable composition. This inventive ink 4 has a composition that allows optimized control of the flow behavior or the flow behavior with the coating.

By the initiator of the coating 3 can be a flow behavior of the ink 4 control accordingly.

For this purpose, has proved to be particularly advantageous, an ink 4 to be used, which contains as component acrylates, preferably polyacrylates and / or polymethacrylates. The acrylates, in particular der polyacrylates and / or polymethacrylates up to 15% by weight as part of the aqueous ink 4 be included. In principle, all such polymers whose solubility is pH-dependent are suitable in this context.

In addition, the acidic initiator acts as a component of the coating 3 as accelerator for curing.

Preferred is a composition of a polymerizable ink 4 from: • solvents 10-98% by weight Amino resin, in particular melamine-formaldehyde resins 0.1-50% by weight • Cobinders, including low molecular weight cobinders, such as bi-, tri-, oglio- or polyfunctional alcohols, including and / or glycols or glycol ethers 0-25% by weight • Surface-active substances, such as monomeric, oligomeric or polymeric surfactants 0-5% by weight • Biocides, such as bactericide or fungicides 0-5% by weight • pH stabilizers 0-5% by weight Acrylates, in particular polyacrylates and / or polymethacrylates of 0-10% by weight • dispersing aids from 0-15% by weight • Humectants of 0-20% by weight • Colorants, especially color pigments of 1-10% by weight.

This preferred composition of the ink 4 acts particularly advantageous with the coating resulting from the pretreatment with a solution 3 following composition: • Solvent, water and / or alcohol 80-100% by weight Initiators, in particular inorganic and / or organic acids, such as, for example, monomeric, oligomeric or polymeric acids, in particular mono- or polyfunctional carboxylic acids 1-50% by weight Surfactants, such as monomeric, oligomeric or polymeric surfactants, in particular anionic surfactants, cationic surfactants, amphoteric surfactants or nonionic surfactants 0-25% by weight.

The acidic initiator will do this in the ink 4 contained amino resin, in particular melamine-formaldehyde resin polymerized, wherein the ink 4 , possibly also thermally accelerated, with the coating 3 and / or with the substrate 1 and / or carrier material 2 connects, with a flow behavior is controllable and a fluidity of the ink 4 quickly reducible. This leads to the fact that very highly resistant, highly adhesive, very resistant and lightfast labels or imprints of inks 4 on any substrates 1 or carrier materials 2 through the coating 3 , in particular precoating, are made possible.

LIST OF REFERENCE NUMBERS

Claims (30)

Pretreatment and / or precoating of non-absorbent substrates ( 1 ) and / or non-absorbent carrier materials ( 2 ), in particular of plastics, metals, glass for ink printing, ink-jet printing with water-based ink ( 4 ) with a pretreatment solution ( 3 ) and / or coating ( 3 ), characterized in that by means of the pretreatment solution ( 3 ) and / or coating ( 3 ) at least one initiator is applied which, in the sense of a defined color distribution, has a sufficiently rapid reduction of the flowability which can be applied to the substrate ( 1 ) and / or carrier material ( 2 ) applied ink ( 4 ) physically, chemically induced. Pretreatment and / or precoating according to claim 1, characterized in that the pretreatment solution ( 3 ) and / or coating ( 3 ), consisting of at least one initiator via non-atomizing coating methods, such as dipping, rolling, casting, flooding, printing, in spray coating processes, such as spraying or spraying of liquid coatings, compressed air spraying, airless or high pressure spraying, electrostatic spraying, or in the powder coating process on the surface of a Substrates ( 1 ) and / or carrier material ( 2 ) is applied. Pretreatment and / or precoating according to claim 1 or 2, characterized in that the Pretreatment solution ( 3 ) and / or coating ( 3 ) consisting of at least one initiator, time or space dependent before the application of the ink ( 4 ) (inline) on the substrate ( 1 ) or carrier material ( 2 ) is applied. Pretreatment and / or precoating according to at least one of claims 1 to 3, characterized in that the pretreatment solution ( 3 ) and / or coating ( 3 ), consisting of at least one initiator, temporally independent of the application of the ink ( 4 ) (offline) on the substrate ( 1 ) or carrier material ( 2 ) is applied. Pretreatment and / or precoating according to at least one of claims 1 to 4, characterized in that the coating on the coated substrate ( 1 ) or carrier material ( 2 ) applied ink ( 4 ) with the substrate ( 1 ) and in particular with the coating ( 3 ) consisting of at least one initiator, wherein the coating ( 3 ) in the applied ink ( 4 ) is soluble. Pretreatment and / or precoating according to at least one of claims 1 to 5, characterized in that the coating ( 3 ) is completely or partially volatile. Pretreatment and / or precoating according to at least one of claims 1 to 6, characterized in that the coating ( 3 ) has a surfactant which is a monomeric, oligomeric or polymeric surfactant, or a hydrocolloid. Pretreatment and / or precoating according to claim 7, characterized in that as surface-active substance anionic surfactants, Cationic surfactants, amphoteric surfactants or nonionic surfactants can be used. Pretreatment and / or precoating according to claim 7 or 8, characterized in that as surfactant emulsifiers, wetting agents and dispersants are used. Pretreatment and / or precoating according to at least one of claims 1 to 9, characterized in that the initiator is a polyvalent metal salt, such as. CaCl ₂ or Ca (OH) ₂ is used. Pretreatment and / or precoating according to at least one of claims 1 to 9, characterized in that as an initiator of the pretreatment solution ( 3 ) and / or coating ( 3 ) a monomeric, oligomeric or polymeric acid is used. Pretreatment and / or precoating according to claim 11, characterized in that the initiator has a pK _s value of -6 to 15. Pretreatment and / or precoating according to claim 11 or 12, characterized in that as initiator a mono- or polyfunctional carboxylic acid is used. Pretreatment and / or precoating according to at least one of claims 1 to 13, characterized in that the coating ( 3 ) the solubility of at least one component of the applied ink ( 4 ). Pretreatment and / or precoating according to at least one of claims 1 to 14, characterized in that the coating ( 3 ) the solubility of at least one polymeric component in the applied ink ( 4 ). Pretreatment and / or precoating according to at least one of claims 1 to 15, characterized in that the coating ( 3 ) the solubility of at least one of the coloring components of the applied ink ( 4 ). Pretreatment and / or precoating according to at least one of claims 1 to 16, characterized in that the coating ( 3 ) for the co-storage of one or more components, such as, for example, flocculation or agglomeration of at least one polymeric component onto the substrate ( 1 ) or the carrier material ( 2 ) applied ink ( 4 ) leads. Pretreatment and / or precoating according to at least one of claims 1 to 16, characterized in that the coating ( 3 ) for the assembly of one or more components, such as for flocculation or agglomeration of at least one pigment component of on the substrate ( 1 ) or the carrier material ( 2 ) applied ink ( 4 ) leads. Pretreatment and / or precoating according to at least one of claims 1 to 18, characterized in that the coating ( 3 ) a partial polymerization of the on the substrate ( 1 ) or carrier material ( 2 ) applied ink ( 4 ). Pretreatment and / or precoating according to at least one of claims 1 to 19, characterized in that the coating ( 3 ) a complete polymerization of the on the substrate ( 1 ) or carrier material ( 2 ) applied ink ( 4 ). Pretreatment and / or precoating according to at least one of claims 1 to 20, characterized in that the coating ( 3 ) a partial or complete polymerization of the on the substrate ( 1 ) and / or carrier material ( 2 ) applied ink ( 4 ), wherein the polymerization of the coating ( 3 ) of the substrate applied ink ( 4 ) takes place with or without thermal acceleration. Pretreatment and / or precoating according to claim 21, characterized in that the coating ( 3 ) a partial or complete polycondensation of the on the substrate ( 1 ) and / or carrier material ( 2 ) applied ink ( 4 ). Composition of a pretreatment solution for pre-coating, in particular for producing a coating ( 3 ) for application to non-absorbent substrates ( 1 ) and / or non-absorbent carrier materials ( 2 ) for time-dependent or time-independent application of ink printing, ink-jet printing with water-based ink ( 4 ) containing: • Solvents, especially water and / or alcohol 80-99.9% by weight • initiators, in particular inorganic or organic acids 0.1-50% by weight Composition according to Claim 23, characterized in that the composition Surfactants such as monomeric, oligomeric or polymeric surfactants 0-25% by weight. are added. Composition of an ink ( 4 ) for application to substrates ( 1 ) and / or support materials ( 2 ), for time-dependent or time-independent application of ink pressure, ink-jet printing with water-based ink ( 4 ) containing: • solvents, especially water 10-98.9% by weight Amino resins, in particular melamine-formaldehyde resins of 0.1-50% by weight • Colorants, in particular color pigments 1-10% by weight Composition of an ink ( 4 ) for application to substrates ( 1 ) and / or support materials ( 2 ) for time-dependent or time-independent application of ink printing, ink-jet printing with water-based ink ( 4 ) containing: • solvents, especially water 10-98.9% by weight Acrylates, in particular polyacrylates and / or polymethacrylates 0.1-15% by weight • Colorants, in particular color pigments 1-10% by weight. Composition according to Claim 26, characterized in that the composition Amino resins, in particular melamine-formaldehyde resins of 0.1-50% by weight are added. Composition according to at least one of Claims 25 to 27, characterized in that the composition • Humectants of 0-20% by weight are added. Composition according to at least one of Claims 25 to 28, characterized in that the composition • biocides, such as bactericides or fungicides of 0-5% by weight are added. Composition according to at least one of Claims 25 to 29, characterized in that the composition • Dispersing agent of 0-10% by weight are added.