DE10135157A1 - Process for applying a self-cleaning coating to textiles - Google Patents

Abstract

The invention relates to a method by which means aerosils can be non-permanently applied to all textile materials and items of clothing using a normal chemical cleaning process. In standard current chemical cleaning processes, perchloroethylene, tetrachloroethylene or heavy naphtha are predominantly used. A hydrophobic aerosil can be suspended in said solvents. Advantageously, the solvents used are suitable for most items of clothing. When a small percentage of aerosil is added to said solvents/detergents and items of clothing are cleaned with said aerosil/solvent mixture, a non-permanent, dirt-repelling layer is directly applied during the chemical cleaning of the textile material.

Description

The subject of the present invention application is a method for application self-cleaning coatings on textiles, the application being carried out a chemical cleaning process to which the textiles are subjected.

The principle of self-cleaning coatings is well known. To achieve one Good self-cleaning of a surface must be next to a very hydrophobic surface Surface also have a certain roughness. Suitable combination of structure and Hydrophobicity makes it possible that even small amounts of moving water on the Take dirt particles adhering to the surface and clean the surface (WO 96/04123; U.S. Patent 3,354,022).

State of the art according to EP 0 933 388 is that for such self-cleaning surfaces Aspect ratio of> 1 and a surface energy of less than 20 mN / m required is. The aspect ratio is defined here as the quotient of the height to the width of the Structure. The aforementioned criteria are realized in nature, for example in the lotus leaf. The surface of the plant formed from a hydrophobic wax-like material Elevations that are a few microns apart. Drops of water come in Essentially only in contact with these tips. Such water-repellent surfaces are widely described in the literature.

CH-PS-268 258 describes a process in which, by applying powders such as kaolin, Talc, clay or silica gel structured surfaces can be created. The powders will fixed on the surface by oils and resins based on organosilicon compounds (Examples 1 to 6).

EP 0 909 747 teaches a method for producing a self-cleaning surface. The Surface has hydrophobic elevations with a height of 5 to 200 µm. Manufactured is such a surface by applying a dispersion of powder particles and an inert material in a siloxane solution and then curing. The structure-forming particles are thus fixed to the substrate by an auxiliary medium.

WO 00/58410 comes to the conclusion that it is technically possible to produce surfaces of Make objects artificially self-cleaning. The surface structures required for this from surveys and depressions have a distance between the surveys of Surface structures in the range from 0.1 to 200 µm and an elevation in the Range 0.1 to 100 µm. The materials used for this must be made of hydrophobic Polymers or permanently hydrophobic material. A release of the particles from the Carrier matrix must be prevented.

The use of hydrophobic materials, such as perfluorinated polymers, for the production of hydrophobic surfaces are known. There is a further development of these surfaces in structuring the surfaces in the µm range to the nm range. U.S. Patent 5,599,489 discloses a method in which a surface is bombarded with particles appropriate size and subsequent perfluorination especially repellent can be. Another method describes H. Saito et al. in "Service Coatings International ", 4, 1997, p. 168 ff. Here are particles made of fluoropolymers Metal surfaces applied, with a greatly reduced wettability of the so produced Surfaces compared to water with a significantly reduced tendency to freeze has been.

The principle is borrowed from nature. Small contact areas lower the Van der Waal's Interaction required for adhesion to flat surfaces with lower Surface energy is responsible. For example, the leaves of the lotus plant are raised made of a wax, which reduce the contact area to water. WO 00/58410 describes the structures and claims their formation by spraying on hydrophobic alcohols such as nonacosan-10-ol or alkane diols such as nonacosan-5,10-diol. The disadvantage here is the poor stability of the self-cleaning surfaces, because Detergents lead to the breakdown of the structure.

Methods for producing these structured surfaces are also known. In addition to the detailed reproduction of these structures by a master structure in injection molding or Embossing processes are also known which involve the application of particles to a Use surface (US 5 599 489).

In recent times, self-cleaning surfaces have also been tried on textiles provide. It was found that by applying aerosils to textiles self-cleaning surfaces can be created. The aerosils are used with a Solvent integrated in the polymer matrix of the textile fiber.

DE 101 18 348 describes polymer fibers with self-cleaning surfaces which the self-cleaning surface by the action of a solvent which has structure-forming particles, dissolving the surface of the polymer fibers by the Solvent, attaching the structure-forming particles to the dissolved surface and Removing the solvent is obtained. The disadvantage of this method is that when processing the polymer fibers (spinning, knitting, etc.) the structure-forming particles and thus damage the structure that causes the self-cleaning surface can or can even be lost under certain circumstances and thus the Self-cleaning effect is also lost.

DE 101 18 346 describes textile fabrics with self-cleaning and water-repellent Surface made up of at least one synthetic and / or natural textile Base material A and an artificial, at least partially hydrophobic surface with Bumps and depressions made of particles, which without the use of adhesives, resins or lacquers Base material A are firmly connected, described by treatment of the base material A with at least one solvent that contains the particles undissolved, and removing the Solvent, wherein at least some of the particles with the surface of the base material A be firmly connected. The disadvantage of this method is based on a very complex finishing of the textile surfaces. In this process, it is necessary that the solvent must be matched exactly to the base material of the textiles. In the case of garments, however, there are usually mixed fabrics, which makes this coordination gets complicated. If the solvents are not precisely matched, it can lead to Destruction of parts of the garment will occur. A treatment of textiles Surfaces are necessary before cutting.

The object of the present invention was therefore a method for producing to provide self-cleaning coatings or surfaces on textiles with which also includes tailored textiles made of different materials can be easily equipped with self-cleaning surfaces.

Surprisingly, it was found that by adding structure-forming particles Solvents, which are used in the chemical cleaning of textiles, possible is to provide these textiles with a self-cleaning coating. By treatment of the textiles during the chemical cleaning process with particles and solvents the task was solved. After removing the solvent, the Particles are not permanently attached to the textiles without the textiles made from blended fabrics were destroyed.

The present invention therefore relates to a method according to claim 1 for chemical cleaning of textiles using organic detergents and coatings of textiles with a dirt-repellent coating, which is characterized is that the cleaning and coating of the textiles in one process step Use of a cleaning agent which has structure-forming particles is, after removing the detergent a non-permanent, water and dirt-repellent layer remains on the textiles.

The present invention also relates to textiles cleaned using organic Detergent and with a dirt-repellent coating after a Method according to at least one of claims 1 to 11.

The present invention also relates to a protective coating for textiles, obtainable by cleaning and coating textiles in one process step under Use of a cleaning agent which has structure-forming particles suspended, after removing the cleaning agent a non-permanent dirt-repellent Layer remains on the textiles.

The present invention also relates to a use of the method according to one of claims 1 to 11 for cleaning and coating of clothing, the exposed to high levels of dirt and water, especially for outdoors Area, skiing, alpine sports, motor sport, motorcycle sport, motor cross sport, sailing, Textiles for the leisure sector as well as for cleaning and coating technical textiles selected from tents, awnings, umbrellas, tablecloths and / or convertible tops and work clothes.

The present application describes a method with which is not permanent all textiles and garments particles in the normal chemical cleaning process can be applied that a dirt and water repellent layer or Coating is created.

The invention has the advantage that in a simple manner in chemical cleaning using conventional chemical cleaning agents dirt-repellent, non-permanent layer. Such textiles can be used much longer than conventional textiles, since the invention contaminate treated textiles much more slowly.

In contrast to methods according to the prior art, the method according to the invention Coating with a dirt-repellent layer is relatively gentle because the fibers of the Textiles are not attacked or only attacked to a very small extent. The coatings can not only be applied to textiles made of artificial material, but to all materials that are against the detergent, which is the structure-forming particles exhibits are stable.

The coating produced by means of the method according to the invention is not permanent and is therefore particularly suitable as a protective coating for textiles. Such Protective coatings according to the invention protect the textiles, such as. B. new goods, at Transport or in the sales room from pollution, but are easily z. B. by Wash with detergent substances to remove from the textiles. That way Prevent new goods from becoming dirty and thus becoming worthless or unsaleable.

The method according to the invention and its use are exemplified below described without the invention being limited thereto.

The process according to the invention for the chemical cleaning of textiles by means of organic detergent and coating of textiles with a dirt-repellent Coating is characterized by the fact that the cleaning and coating of the Textiles in one process step using a cleaning agent, which has structure-forming particles, is carried out, after removing the Detergent a dirt-repellent layer remains on the textiles. This is preferably not permanently connected to the textiles.

The process step of cleaning and coating is depending on the material that the has cleaning textile, carried out at adjusted temperatures. Good results are achieved at room temperature, but also those that are normally used Temperatures in the chemical cleaning process achieve good results.

If chemical cleaning is followed by wet chemical aftertreatment, it makes sense to Cleaning with a cleaning agent that has structure-forming materials after Repeat the wet chemical cleaning, or at the first chemical cleaning Use detergent that has no particles, because the layer formed the Would affect the effect of wet chemical cleaning or the coating itself would be destroyed.

The structure-forming particles are preferably suspended in the cleaning agent. Solvents are preferably selected as cleaning agents from perchlorethylene, Tetrachlorethylene, trichlorethylene, heavy gasoline or cleaning gasoline. The Detergent is either universal for all materials present in the textiles are usable or will be used according to the compatibility of the materials used in the Textiles are present, selected against the detergent.

The textiles can be artificial materials selected from polycarbonates, Poly (meth) acrylates, polyamides, PVC, polyethylenes, polypropylenes, polystyrenes, Polyesters, polyether sulfones or polyalkylene terephthalates, as well as their mixtures or Copolymers, natural materials selected from cotton, kapok, flax, hemp, jute, Sisal, coat of hair of animals or silk or materials of mineral origin or Have mixed fabrics made of natural and artificial materials. Preferably point the textiles cotton, silk, polyamides and polyesters.

The textiles can be produced from fibers and / or yarns of the above-mentioned materials by various methods. These procedures include:
Weaving: These weaves include fabrics, carpets and bobinets which are characterized by their classic weave of warp and Weft threads are characterized.
Knitting and knitting: This creates knitwear such as B. sweaters.
Bobbin lace: here the so-called lace is made
Needles: This is where felt, needle felt and needle pile carpets are made, which together with the nonwovens are to be counted as textile composites.
Sewing: connecting textiles made of the same or different materials to form larger textiles.

The particles used can be those which have at least one material selected from Silicates, minerals, metal oxides, metal powders, silicas, pigments or polymers exhibit. The particles can particularly preferably contain silicates, doped silicates, minerals, Metal oxides, aluminum oxide, silicas or pyrogenic silicates, aerosils or powdered polymers, such as. B. spray-dried and agglomerated emulsions or be cryomilled PTFE.

Particles are preferably used which have an average particle diameter of 0.02 up to 100 µm, particularly preferably from 0.1 to 50 µm and very particularly preferably from 0.1 up to 30 µm. However, particles made up of primary particles are also suitable Store agglomerates or aggregates with a size of 0.2-100 µm.

It can be advantageous if the particles used have a structured surface. Particles that have an irregular fine structure in the nanometer range are preferred have the surface used. Such particles preferably have at least one Compound selected from pyrogenic silica, precipitated silica, aluminum oxide, Silicon dioxide, pyrogenic and / or doped silicates or powdery polymers.

It can be advantageous if the particles used have hydrophobic properties. The hydrophobic properties of the particles can be influenced by the material used Particles are inherently present, such as in polytetrafluoroethylene (PTFE). It However, hydrophobized particles can also be used, which are based on a suitable Treatment have hydrophobic properties, such as. B. with at least one connection Particles treated from the group of alkylsilanes, fluoroalkylsilanes or disilazanes. Particularly suitable particles are hydrophobicized pyrogenic silicas, so-called Aerosils®. Examples of hydrophobic particles are e.g. B. the Aerosil VPR 411 or Aerosil R 8200. Examples of treatment with perfluoroalkylsilane and subsequent Tempering hydrophobizable particles are e.g. B. Aeroperl 90/30, Sipernat silica 350, Aluminum oxide C, zirconium silicate, vanadium-doped or Aeroperl P 25/20.

Textiles according to the invention are cleaned by means of the method mentioned organic cleaning agents and provided with a dirt-repellent coating, available. These textiles have a protective coating for textiles, available through Cleaning and coating of textiles in one process step using a Detergent, which has structure-forming particles suspended, according to the Remove the cleaning agent from the non-permanent dirt-repellent layer Textiles remains on. The protective coating can be used in particular to protect textiles can be used in transport and in sales rooms before pollution. Through the protective coating according to the invention can, for. B. can be prevented at Items of clothing the new goods in department stores by transport or fitting pollute. The protective coating is made by washing with water, which is wash-active Has substances, easy to remove.

The method according to the invention can be used for cleaning and coating Clothing that is exposed to high levels of dirt and water, especially for the outdoor area, skiing, alpine sports, motor sports, motorcycle sports, Motorcross, sailing, textiles for the leisure sector and technical textiles such as Tents, awnings, umbrellas, tablecloths and / or convertible tops and Work clothing can be used. The method according to the invention for Cleaning and coating of carpets, wall hangings, textiles, wallpaper, decorative Curtains and / or stage curtains can be used.

The method according to the invention and the coating according to the invention are explained in more detail with reference to FIGS. 1 to 3, without being limited thereto.

Fig. 1 shows a scanning electron micrograph of a polyester fabric. Fig. 2 shows a fiber of this uncoated polyester fabric. In Fig. 3, a fiber of the same tissue is also shown, wherein the fabric has been treated according to the invention. Fig. 4 shows again the treated tissue. The particles applied to the fiber are clearly visible.

example

Textile fabric made of polyester is immersed in trichlorethylene for 15 minutes with constant stirring of the solution or the washing drum. 0.1% by weight of Aerosil R 8200 is added to the solvent (trichlorethylene). After the solvent has dried, the surfaces have excellent dirt and water-repellent properties. Fig. 1 shows a scanning electron micrograph of an uncoated polyester fabric. In FIG. 4, the same fabric is shown after treatment. The pictures show that small particles are deposited on the fabric.

The good dirt-repellent properties can also be seen on the very small roll-off angle a drop of water on a coated fabric can be recognized. In contrast to A drop of water rolls untreated tissue at an angle of 2.1 ° ± 0.2 ° independently from the surface. In the case of the untreated comparative fabric, there is unrolling of the water drop is not detectable because the tissue is wetted by the drop.

Claims (17)

1. Process for the chemical cleaning of textiles by means of organic cleaning agents and coating of textiles with a dirt and water-repellent coating, characterized in that the cleaning and coating of the textiles is carried out in one process step using a cleaning agent which has structure-forming particles. after removing the cleaning agent, a non-permanent dirt and water-repellent layer remains on the textiles. 2. The method according to claim 1, characterized, that the particles are suspended in the detergent. 3. The method according to claim 1 or 2, characterized, that the textiles are artificial materials selected from polycarbonates, Poly (meth) acrylates, polyamides, PVC, polyethylenes, polypropylenes, polyesters, Polyether sulfones or polyalkylene terephthalates and mixtures thereof or Copolymers, natural materials selected from cotton, kapok, flax, hemp, Jute, sisal, animal or silk hairclothes or materials of mineral origin or mixed fabrics made of natural and artificial materials. 4. The method according to at least one of claims 1 to 3, characterized, that at least one solvent selected from perchlorethylene as cleaning agent, Trichlorethylene, tetrachlorethylene or heavy gasoline is used. 5. The method according to at least one of claims 1 to 4, characterized, that particles with an average particle diameter of 0.02 to 100 µm be used. 6. The method according to claim 5, characterized, that particles with an average particle diameter of 0.1 to 30 µm be used. 7. The method according to at least one of claims 1 to 6, characterized, that particles that have an irregular fine structure in the nanometer range on the Have surface, are used. 8. The method according to at least one of claims 1 to 7, characterized, that particles selected from silicates, minerals, metal oxides, metal powders, Silicas, pigments or polymers can be used. 9. The method according to claim 8, characterized, that particles selected from pyrogenic silicas, precipitated silicas, Aluminum oxide, silicon dioxide, doped silicates, pyrogenic silicates or Powdery polymers can be used. 10. The method according to at least one of claims 1 to 9, characterized, that the particles have hydrophobic properties. 11. The method according to claim 10, characterized, that the particles by treatment with at least one compound from the group of alkylsilanes, fluoroalkylsilanes and / or disilazanes with hydrophobic properties be equipped. 12. Textiles cleaned using organic detergents and with a water and dirt-repellent coating provided by at least one method one of claims 1 to 11. 13. Protective coating for textiles, obtainable by cleaning and coating from Textiles in one process step using a cleaning agent, which has structure-forming particles suspended, after removal of the Detergent a non-permanent dirt-repellent layer on the textiles remains. 14. Protective coating according to claim 13, obtainable according to one of claims 2 to 11. 15. Protective coating according to claim 13 or 14, characterized, that the protective coating to protect textiles during transport and in Showrooms are used before pollution. 16. Use of the method according to one of claims 1 to 11 for cleaning and Coating of clothing, the high pollution and dirt Are exposed to water, especially for outdoor use, skiing, alpine sports, Motorsport, motorcycle sport, motor cross sport, sailing, textiles for the leisure sector as well as for cleaning and coating technical textiles, selected from tents, Awnings, umbrellas, tablecloths, convertible tops or work clothes. 17. Use of the method according to one of claims 1 to 11 for cleaning and Coating of carpets, wall hangings, textiles, wallpaper, decorative curtains and / or stage curtains.