DE10018458A1 - Imparting of self-cleaning properties to surfaces, especially bricks and roofing tiles, comprises coating the surface with titanium dioxide in anatase form - Google Patents

Abstract

Process for imparting self-cleaning properties to a surface, comprises coating the surface with titanium dioxide in anatase form. An Independent claim is also included for an article having a surface exposed to weathering, especially natural ultraviolet radiation, where the surface has a coating of titanium dioxide in anatase form.

Description

The invention relates to a method for generating a self-cleaning property Surface and an object that has a corresponding surface.

It is generally known to have a self-cleaning property on surfaces either by creating appropriate surface structures already during the manufacture of the Surface made of hydrophobic polymers or by applying a powder to produce hydrophobic polymers or hydrophobized materials on the surface (WO 96/04123). The self-cleaning property is particularly important for such Surfaces that are exposed to the environment and weather conditions, such as Roofs and building surfaces, building materials, glazing elements, solar modules, tents and Tent fabrics, housings of vehicles of all kinds and the like, especially natural ones Sprinkling or sprinkling with water is exploited to accumulate dirt prevent or eliminate. That is why efforts have been made recently been, especially ceramic surfaces, e.g. B. of bricks or tiles, with To provide surface structures of the type specified above, in connection with a hydrophobization have a self-cleaning property (EP-A 909 747). Because of the surface structure and its hydrophobic property wets when irrigated or Irrigation water does not hit this surface, but rolls on it in drops and takes dirt particles on the surface with it. This effect is known under the name "lotus effect" (protected trademark).  

The invention is also based on the object on surfaces Generate self-cleaning property, but of a certain surface structure is independent.

In terms of method, this is achieved in that a surface, in particular a brick or roof tile, coated with a titanium oxide of the crystal form anatase; on The object according to the invention thus points to at least one in the state of use Surface exposed to weather a coating with a titanium oxide of the crystal form Anatas on.

It has been found that the crystal form coated anatase of titanium oxide Surfaces have a pronounced hydrophilic property, through which the surface wetting water can spread as the finest thin layer on the surface without To form drops. This property is so pronounced that the water in particular ceramic surfaces due to their intrinsic roughness is able to under existing impurities, even greasy or oily deposits, in the manner of Penetrating and lifting detergents. With further irrigation, such Contaminants then washed away. One can therefore be coated in this way describe ceramic surfaces as self-cleaning; this kind of treatment of ceramic surfaces thus treads a path that runs counter to the endeavor is to keep the surface as hydrophobic as possible for the purpose of self-cleaning.

According to an advantageous development of the invention, a surface with the Titanium oxide coated, which according to the prior art for the production of a Self-cleaning property either already has the necessary surface structure or this is obtained after coating with the titanium oxide, but is not yet hydrophobic. Then the one equipped with the surface structure and with the titanium oxide coated surface hydrophobic in one of the possible ways. Such a Treated body thus has a surface that is under the layer of a Water repellant carries the coating with the titanium oxide. This will initially for self-cleaning the hydrophobic property in connection with the Utilized surface structure that just wetting the ceramic surface prevented and self-cleaning caused by rolling water drops. There Hydrophobing agents over a long period of time, however, due to natural UV radiation  degraded or become ineffective, it suffers over time Self-cleaning property. As a result, however, according to the invention Titanium oxide coating provided hydrophobic layer free and effective in that due to a photocatalytic property inherent in titanium oxide, just below the UV radiation experiences an increase in the hydrophilic property. Therefore, the Self-cleaning properties of surfaces treated in this way extended over a very long time become.

Various options are available for coating the ceramic surface with the titanium oxide Procedure. The simplest are sol-gel processes in which, for example, the as organometallic compound present titanium oxide applied to the surface, the The surface is then dried and the coating is heat treated. The In this case, heat treatment can take place between 500 and 1000 ° C to eliminate the organic part of the organometallic titanium oxide compound. But there are especially for compounds in which there are no organic components Treatments at a significantly lower temperature are conceivable, e.g. B. at 50 ° C. Also CVD Methods are applicable in which the titanium oxide coating by evaporation is applied. All of these application methods are known per se and require no detailed explanation at this point.

Also in the described combined form, in which the hydrophobic and the hydrophilic Property of the surface can be combined with each other in the form that they are in time Sequence can take effect successively, the generation of the surface structure and the hydrophobization necessary for the self-cleaning property in several ways respectively. For this stand u. a. all procedures available on the part of the applicant in older proposals in connection with ceramic surfaces have already been described (EP-A 909 747, DE 199 47 524.5, DE 199 58 321.8, DE 199 58 764.7). If the Surface structure through the application and attachment of powder particles on a If the surface is generated, the titanium oxide can directly adhere to the powder particles form the surface structure of the application or be contained in the surveys. Deviating from this, the surface structure can also be applied after the titanium oxide Layer out of this z. B. generated by embossing, which also the Elevations that contain titanium oxide.  

According to a further embodiment of the invention can be used for hydrophobing Water repellents are used from the outset by incorporating titanium dioxide are stabilized against UV radiation. As a result, the exploitation of Property of titanium oxide, in turn, the life of the waterproofing layer extended.

Claims (7)

1. method for generating a self-cleaning property of a surface, in particular a brick or roof tile, in which the surface with a Titanium oxide of the crystal form anatase is coated. 2. The method according to claim 1, characterized in that the surface by means of a sol-gel process is coated, in which a sol is an organometallic Connection of the titanium oxide applied to the surface, the surface dried and then annealed at a higher temperature. 3. The method according to claim 1 or 2, characterized in that before, at or after coating the surface with a titanium oxide on the surface Structure of elevations of predetermined height and distribution density is generated, which in connection with a hydrophobic property in a known per se Way is prerequisite for achieving a self-cleaning effect, and that then the surface over the titanium oxide layer is made hydrophobic. 4. object with weather, in particular natural UV radiation, exposed surface, in particular brick or roof tiles, thereby characterized in that the surface is coated with a titanium oxide Has crystal form anatase. 5. Object according to claim 4, characterized in that the surface is a structure known per se suitable for achieving a self-cleaning property of elevations of predetermined height and distribution density and above the Coating with titanium oxide carries a hydrophobic coating.   6. Object according to claim 5, characterized in that the Structural elevations are formed by or contain the titanium oxide. 7. Object according to claim 6, characterized in that the Structural surveys are formed by titanium oxide particles.