DE10104164A1 - Composition for producing surfactant, used for cleaning and impregnating soiled, oily area, e.g. steel, engine or printing machine roller, contains long-chain, unfluorinated silane and perfluorinated silane forming curable polysiloxane - Google Patents

Abstract

Composition for the production of a surfactant with combined cleaning and impregnating action contains a long-chain, unfluorinated silane (I) and a perfluorinated silane (II), such that the oligomer/polymer (III) formed by hydrolysis and condensation of (I) and (II) has a linear crosslinked polysiloxane network, with free reactive points capable of 3-dimensional crosslinking. Independent claims are also included for the following: (1) A process for cleaning and impregnating soiled and oily areas, especially steel surfaces, by producing (III) from (I) and (II) and applying (III) to the surface; (2) Cleaning fluid containing a highly fluorinated component and a base fluid, which can swell, loosen or remove soil and especially is provided with a long-chain, perfluorinated compound with a functional group that can stick the highly fluorinated components to particulate impurities; (3) A process for cleaning articles by wrapping and/or covering them with sorbent material ensuring slow evaporation of solvents, impregnating this material with cleaning fluid, especially the specified fluid, before or after application, leaving for not less than 3, preferably not less than 30, especially 45 minutes and then removing the material; (4) Articles with a surface enlarged by microstructurization to increase its fluid bearing and/or absorption capacity, in which the microstructures have substructures, which are sealed; (5) An array with article(s) and means of transferring fluid to this, in which the substructure seal has surface energy favoring fluid transfer.

Description

The present invention is concerned with objects and de surfaces.

It is often desirable to have an item with a hydro phile or, more generally, fluid philately to provide the surface. This is approximately the case if that Fluid from a first to a second location on the surface to be transferred. A typical case is in Printing machines realized where color has to be transferred.

It has been proposed to provide flamed, sputtered or similarly applied layers, such as CrO ₂ , on the surfaces of such transferring objects. With these, the hydrophilicity, as far as the mechanisms are understood, results from the structuring of the surface.

It can be used, for example, in scanning electron images Areas appearing flat. The rough outline the flatbread itself determines a microstructure, but that in the areas where two or more pita are stacked come to lie, are finer substructured, i.e. fine sub Have structural pores where the flatbreads are not tight are packed. The hydrophilicity now becomes spongy and / or pore-like, but in any case structured surface che attributed insofar as it is suspected that in the Po Ren fluid penetrates and thus the fluid absorption capacity is increased.

However, it is problematic, for example in the printing machine sector, that impure solvent and / or pure fluid applied that can be completely replaced, but often Pigments and the like are present. These sit down then in or in front of the pores and both lead to bad becoming increasingly fluid and pollution velvet.

The aim of the present invention is to create something new for the ge to provide advertising application.

The object of the present invention is to create something new to provide for commercial use.

The solution to this problem is claimed independently. before preferred embodiments can be found in the subclaims.

An object with a Surface which increases its fluid carrying and / or - absorption and / or transfer capability microstructured ßert is characterized in that the microstructure Sub have structures and a substructure sealing pre see is.  

What is fundamental is the perception that appears paradoxical per se nis that, although the structuring was done to the Fluid carrying and / or absorbing and / or transfer capability mi crostructed to increase the amount of fluid when repeated Transfer can be increased by sealing. Be reached still benefits by using a substructure sealer is achieved. It was recognized that such a small capillary openings may be closed, but if appropriate ter formation of the seal in the entrance area of the Capillary enough fluid at the where appropriate and ideally only very small and smallest pore sealing seal can be fixed, with the smallest and smallest pores in particular a factor of two, in particular a factor of 5, particularly preferably an order of magnitude smaller than the dimension can be crostructuring, which in turn, however, also with can be sealed.

The microstructure does not have to be periodic, but can stocha be designed stisch and / or quasi-stochastic. Insbeson initially a non-smooth surface can be provided be, in particular with a basic structure of higher amplitude and lower spatial frequency on which a fine structure with lower amplitude and higher spatial fre quenz is built up and / or will.

It is possible and preferred if the microstructure is formed by rich areas and / or flat materials lying one above the other. This can be achieved if the microstructure is formed by material bouncing onto the surface during manufacture. The microstructure can be formed by spraying and / or flaming material, in particular by a metal oxide, in particular CrO ₂ .

The substructure sealant can have oleophobic properties exhibit and / or be completely oleophobic. At the same time, the Sealing be hydrophilic and / or hydrophobic. Amazing is that in particular a hydrophobic seal long-term results in a hydrophilic structure can be used as an unsealed surface.

It is also possible to adapt the surface energy of the object to the fluid and neighboring opposite cities, from or to which is transferred. This adjustment of the surface energy can be achieved in particular by coating the parts that are involved, for example adjacent parts in operation. A coating composition with a very low surface energy is known, for example, from EP 0 587 667 B1. The main claim of this pre-published document specifies an organometallic coating composition which has a group perfluorinated with an average of 5 to 30 fluoaratoms which are bonded to one or more aliphatic carbon atoms which are separated from M by at least two atoms. Such a coating composition has a low surface energy. Instead of some or all of the fluorine atoms z. B. Al kylgruppen installed, the surface energy of the resulting composition or respectively the surfaces treated with the composition increases, and the more, the less fluorine atoms are exchanged. The surface energies are typically set between 10 mJ / m ² and 80 mJ / m ² , preferably between 15 mJ / m ² and 70 mJ / m ² . Care is preferably taken to ensure that the composition used for the coating is particularly low-viscosity, that is to say it flows well into the pores and can thus act primarily where it is desired, namely in the substructure area.

The composition is also preferably very diluted to textured surface applied. The background is that the  substructures to be sealed, since they are only slightly abrasive are burdened, even need only small layer thicknesses and too like the thin layers, the sealing of only the finest buttocks enable and / or substructures, but not also such pores and / or substructures are closed that not so easy due to their size due to pigment deposits or the like itself therefore does not contaminate a seal need as they become permanent to the object's fluid philia contribute.

The sealing can be done with fluorinated, especially with multiple fluorinated substances. Such coating compositions can be based on polycondensates of one or more hydrolyzable compounds of at least one element M from the main groups III to V and the subgroups II to IV of the periodic table, at least some of these compounds in addition to the hydrolyzable groups A also being non-hydrolyzable has carbon-containing groups B and the total molar ratio of groups A to groups B in the underlying monomeric starting compounds is 10: 1 to 1: 2, with groups B being groups B 'for a predetermined proportion of the composition, which averages 5 to 30 fluorine atoms have, which are bonded to one or more aliphatic carbon atoms which are separated from M by at least two atoms, and wherein, in a second portion of the composition, the groups B are groups B "which are selected such that are suitable for gives them a higher surface energy, which is over 25 mJ / m ² , in particular more than 60 mJ / m ² . The lower value of 25 mJ / m ² differs comparatively little from that of the highly fluorinated composition components, which allows fine adjustment, while the second, higher value creates a wider range of adjustment options. In particular, the surface energy of the second portion can be even higher, such as. B. at 70 or 80 mJ / m ² . It should be mentioned that in the choice of the second composition component it is of primary importance that on the one hand the required high surface energy is given and on the other hand that the mixture with the perfluorinated first component is still sufficiently stable and therefore particularly good on a substrate cross-linking composition results.

It can be provided that the seal in particular has tistatic properties, what pigment removal particularly favored during transfer and / or that the scratch stability is increased. This can be done by using appropriate Nanoparticles in the sealant composition.

It should be mentioned that in the sealing - in particular by high-frequency eddy currents heatable - introduced particles can be, preferably nanoparticles, in the coating tion remain. If the particles are caused by high-frequency elec tromagnetic alternating fields are heated, the heats up entire shift with. This allows the assembly to harden tion can be reached without warming up the entire body have to. Alternatively, the coating can also be coated with a sufficiently powerful and sufficient for achieving high temperature hot air blower and / or one Infrared light source can be heated.

The sealing can be done with a solution that contains no fluorosilane, which has the advantage of being local Micelle formation in the pores is safely avoided and the Sealing is improved. Instead, fiction according to nanoparticles and active binding phases.

According to the invention, a sealing solution is proposed ne solution containing the following components: Kieselsol, Kie silicic acid ether, which hydrolyzes or partially hydrolyzes are and / or are condensed and / or organically modified  Silicic acid ether, the organic modification by Groups is effected, which allows coupling of the monomer lichen, which is later applied to the surface egg to achieve properties. The hydrolyzing, condensing etc. of the silicic acid compound has the consequence that firstly the Pores can be closed better and secondly a surface Mixably stable connection to the surface, e.g. chrome dioxide, such as that on chrome-plated surfaces of printing machines can be found can be obtained.

As nanoparticles that are also in the sealing solution May contain yttrium salts or nanoparticles ITO, ATO, FTO or nano-sized metal particles the. These can provide antistatic properties be communicated. Other nanoparticles can also be used. The reason for using nanoparticles is that the Bulk component shrinks on drying, which after penetrating into the pores to be filled would again result in cracks. The Nanoparticles prevent cracking when the Sealing solution, so serve as filling material. Is to preferred if they have diameters of e.g. B. 1/10 of the typical have filling pores so that they penetrate well into them can.

It is also possible to use monomers, especially fluorinated monomers re not to apply to an underlying sealer but rather directly on counter that is present in a printing press stands, especially rollers, anilox rollers etc. This is possible, although many rollers have metal surfaces. ur The fact that this is possible is that Metal surfaces, as far as they are not precious metals delt are regularly oxidized on the surface, d. H. Oxi de / hydroxides u. Like. Have. With kinetic activation (Warming) the substance to be applied and / or the be enough energy is then available  to cause condensation. With condensation On the one hand, bonds form between the metal surface and the monomer from and on the other hand among the condensing Monomer molecules, so that it leads to an at least partial ver comes on the surface what the durability of the coating formed from that produced by the monomer th layer increased. It is preferred that the surface is cleaned beforehand, in particular is fat-free, what with her conventional fat-dissolving solvents and / or processes can be enough.

The monomer can be used activated or not activated the. Activation is more reactive by installing / converting Groups, for example by adding water or the same can be done to the monomer. As a monomer are here conceivable fluorine compounds, in particular with the following Properties: Perfluorinated groups bonded to silicon 2C atoms spacer spacing, the use of fluorinated Si compounds has the advantage of being particularly durable Coatings result from the fact that between Si and the superficial metal hy droxid bonds form and over this a very good three dimensional crosslinking of the monomers takes place. It is also possible Lich to use fluorinated organic compounds, wherein but there are less durable connections, so that a more frequent coating and renewal of the coating is required; The advantage is that the organization nically fluorinated compounds may be cheaper leave and thus the individual coating cheaper is to be carried out, which leads overall to a cost advantage can.

In the fluorinated compounds, it is preferred to aliphatic, long-chain, respectively. to use cyclic aliphatic or aromatic compounds. It is preferred to use CF ₂ groups in the compounds because CFH groups and the like are highly toxic.

The invention can also be used in flexographic printing.

An antistatic coating is particularly important tion when coating rubber rollers that are particularly sensitive are sensitive to paper dust and in the presence of the same give a poorer print image. The use of a Be However, layering with antistatic properties also has positive effects on other parts of a printing press. This applies equally to rolls made of or with ceramic material. It is also possible to electrostatic cal coating, in particular a primary sealing layer, d. H. the coating is electrostatic sprayed on, so that a particularly good penetration takes place. The electrostatic coating also improves then the properties of the object positive, if only and from finally the substructures were sealed.

The required electrostatic properties of the Be Layering can be achieved with nanoparticles / structures with disso Ziable groups, especially OH groups, shaped and can be achieved, whereby a La Manure separation and chargeability results.

A porous roller can preferably be in the moistened state be layered. The moistening can in particular with the same solvent as for the coating tion composition is used. The result of moistening is then that solvent in the capillaries of the porous Structures, such as superimposed material loading, penetrate. If Now the coating dries out, the solvent becomes Vaporize off the coating surface. It cannot be ver avoid that in the capillaries of the microstructure solvent  remains because the capillary forces are greater than the vapor pressure of the Solvent. If the coating is for the purpose of When curing or the like is heated, the steam rises pressure of the solvent remaining in the capillaries strongly believes that steam is forming. With conventional coating This may not escape because the upper surface drying is vapor-tight. In contrast to this is in the coatings used with nanostructures and / or -particles within the substructures at least for ab sufficient porosity to evaporate the vapor To allow solvent residues from the capillaries, oh ne that the surface of the already cured or at least least hardened coating material bursts or the Sealing is impaired.

The invention is only described by way of example:
A roller of a printing machine provided with a warped chrome structure is coated with a coating according to EP 0587 667 B1. The result is a Drcuk roller that does not have to be cleaned for the first 14 days of operation and is then easy to clean with an oil rag for about half a year. This is attributed to the good transferability of the color due to the changed surface energy.

It should be noted that with smooth rollers, not warty coated rollers, the effect comparative quickly disappears. It wasn't like that after 1700 copies Effect to notice more. With a sand or shot blast ten, but otherwise smooth roller was possible up to Print 11,000 copies until the effect disappears. Both are possible compared to the chrome-wart structure on the very high abrasion of the coating on a smooth or almost smooth roller, but is not yet completely understood.  

Are not yet unused rollers coated, but be already operated, e.g. B. long after a previous loading layering, they must be cleaned. This cleaning is known per se in the prior art. It is possible through Blasting with sand, baking powder, shot peening, cryogenic blasting, Corona rays, ultrasound, etc. Furthermore, those from the Known laser scanners used for aircraft paint removal. For Anilox rollers is also due to the fine well structures cleaning by blasting with especially in one too at least quasi-closed circuit to leading nanopowder possible. The cleaned rollers can then be coated the.

It should be noted that while the present invention is based on of printing presses and color to be transferred de, corresponding advantages become less necessary cleaning continuously and / or zy result in cliché machines that adhere well transfer or hand over materials that are difficult to remove should be. An example of this are PVC films Machines that are currently operated on by the source fluid guided heating rollers to a large extent applied silicone oils to ensure the transfer of the PVC material sten. A coating according to the invention is also present here geous. there is also a coating according to the invention partly with the band sieves used there etc.

Claims (19)

1. Object with a surface which is increased in a microstructured manner to increase its fluid carrying and / or absorbing capacity, characterized in that the microstructure has substructures and a substructure seal is provided. 2. Object according to the preceding claim, characterized ge indicates that, characterized in that the sub structures are at least five times smaller than the microstructures. 3. Object according to one of the preceding claims, since characterized in that the microstructure is stochastic and / or is quasi-stochastic. 4. Object according to one of the preceding claims, since characterized in that initially a non-smooth surface  is provided, in particular with a basic structure higher amplitude and lower spatial frequency, on which a fine structure with lower amplitude and higher spatial frequency is built up and / or will. 5. Object according to one of the preceding claims, since characterized in that the microstructure by areas material lying flat and / or flat on top of one another than is formed. 6. Object according to one of the preceding claims, since characterized in that the microstructure is characterized by the Production of material impacting on the surface det. 7. Object according to one of the preceding claims, since characterized in that the microstructure is characterized by spray and / or flare of material is formed. 8. Object according to one of the preceding claims, characterized in that the microstructure is formed by a talloxide Me, in particular CrO ₂ . 9. Object according to one of the preceding claims, since characterized in that the substructure sealing represents an oleophobic seal. 10. Object according to one of the preceding claims, since characterized in that the substructure seal ei represents a hydrophilic seal. 11. Object according to claims 1 to 8, characterized in that the substructure seal is a hydrophobic seal lung represents.   12. Arrangement with at least one object according to one of the preceding claims and a fluid transfer means for Transfer of fluid to and / or to take over Fluid from the object, the fluid transfer agent a given surface energy with respect to the has transferring fluid, characterized in that that the substructure seal the desired flu idtransfer favoring surface energy. 13. Object according to one of the preceding claims, since characterized in that the substructures with fluorinated substances are sealed. 14. Object according to the preceding claim, characterized ge indicates that the substructures with multiple fluorinated substances are sealed. 15. Object according to one of the preceding claims, since characterized in that the sealing substances have tistatic properties. 16. Object according to one of the preceding claims, since characterized in that the sealing substances the Increase scratch resistance. 17. Object according to one of the preceding claims, since characterized in that this part of a Druckma machine, in particular a roller, in particular a grid roller embodied. 18. Object according to one of the preceding claims, since characterized in that the sealing high temperature is stable, especially up to above 60 ° C, preferably above Is stable at 80 ° C.   19. Object according to one of the preceding claims, since characterized in that the seal thermally is hardened.