DE102009023159A1 - Electrostatic coating process - Google Patents

Abstract

The present invention relates to the use of particles, in particular platelet-shaped, spherical and / or irregularly shaped particles, of glass and / or alumina in electrostatic coating processes, electrostatic coating processes and plastics coated with these processes and painted articles.

Description

The The present invention relates to the use of particles, in particular platy, spherical and / or irregularly shaped particles of glass and / or Alumina in electrostatic coating, electrostatic Coating process and plastics coated with these processes and painted objects.

The Material properties of plastics and paints that are in contact with acids, lyes or coloring substances (fruit juices) come, can be greatly changed to your detriment become. Also the influence of weathering and / or mechanical stress is known to be detrimental. It is desirable the weathering properties and cleaning properties of paints and plastics.

Ideally, the paint / plastic should have an inorganic surface that does not alter the decorative properties. This can be done for example by an SiO ₂ layer, which is applied by organometallic substances. Such methods are known. Thus, the plastic headlights of automobiles are protected with such a scratch-resistant SiO ₂ layer.

Even though this and similar procedures work has a wide Dissemination due to high costs did not take place.

The Object of the present invention is therefore, the weathering properties and cleaning properties of paints and plastics to simple and cost-effective way to improve.

These Task is solved by that on the surface of paints and plastics by means of an electrostatic coating process particles made of glass and / or alumina.

Surprised was found that so applied glass and alumina particles the surfaces of a plastic or paint in wide Cover areas. The scratch resistance, cleanability and Bewitterunsstabilität increases enormously without the decorative properties are greatly changed.

Of the Advantage of this method over the sol-gel coating lies in the cost and the fact that the particles of alumina or a glass made at high temperatures was, and thus have better material properties.

One The invention thus relates to the use of particles of glass and / or alumina in electrostatic coating processes.

The Particles according to the invention consist of glass and / or Alumina. Preference is given to platelet-shaped, spherical and / or irregular shaped Particles used. In particular, mixtures which are platelet-shaped, spherical and irregular shaped Particles are suitable. In one embodiment The invention preferably uses uncoated particles.

Platelet-shaped particles are preferably used alone. The use of only spherical particles is possible. Also suitable is the use of irregularly shaped glass or alumina powder or alumina powder coated with SiO ₂ .

The Particles according to the invention can be used in mixtures made of glass and alumina particles. Prefers For example, glass particles alone or alumina particles alone are used.

The glass particles may consist of all known to those skilled glass types, such as. Window glass, C glass, E glass, ECR glass, quartz glass, ^Duran® glass, laboratory glassware or optical glass. Particularly preferred is E-glass or ECR glass. It may be in the glass particles to irregularly shaped particles or regularly shaped particles, eg. B. balls (including hollow balls) act.

Particularly preferred is the use of platelet-shaped glass particles (glass flakes). It glass plates are used with an average thickness of ≤ 10 microns, preferably ≤ 2 microns. The thickness of the platelet-shaped particles is in particular ≦ 1 μm, preferably ≦ 0.8 μm, and particularly preferably ≦ 0.6 μm. Glass platelets with a thickness of 0.25-0.7 μm are particularly preferred. The average particle size of the glass flakes is usually 5-1000 μm, preferably 5-300 μm, in particular 10-100 μm, particularly preferably 5-60 μm. Particularly preferred glass flakes have an average particle size of 5-150 microns and a thickness of 0.1-0.8 microns, preferably 0.2-0.5 microns. The aspect ratio of the glass flakes is preferably 10-300, especially 50-200. Suitable glass flakes can, for. B. after in the EP 0 289 240 be prepared described methods. SiO ₂ coated glass flakes can also be used. Furthermore, the use of glass beads or hollow spheres is preferred, such as. B. SiLibeads ^® Sigmund-Lindner or retroreflective spheres from 3M or materials from the company Potters-Ballotini, AGSCO, Dantec Dynamics or Sun Microspheres.

The alumina particles can consist of all types of alumina known to those skilled in the art. Preference is given to using particles of corundum (α-aluminum oxide). Particularly preferred is the use of platelet-shaped aluminum oxide particles (aluminum oxide flakes). Alumina flakes having an average thickness of ≦ 10 μm, preferably ≦ 2 μm, are used. The thickness of the platelet-shaped particles is in particular ≦ 1 μm, preferably ≦ 0.8 μm, and particularly preferably ≦ 0.6 μm. Aluminum oxide flakes having a thickness of 0.25-0.7 μm are particularly preferred. The average particle size of the aluminum oxide flakes is usually 5-1000 μm, preferably 5-300 μm, in particular 10-100 μm, particularly preferably 5-60 μm. Particularly preferred aluminum oxide flakes have an average particle size of 5-150 μm and a thickness of 0.1-0.8 μm, preferably 0.2-0.5 μm. The aspect ratio of the aluminum oxide flakes is preferably 10-300, in particular 50-200. Suitable aluminum oxide flakes can be prepared by methods known to those skilled in the art, as described, for. In US 3,718,494 . JP-A-57-111239 . JP-A-04-39362 or JP-B-03-72527 are described. Also suitable are the in EP 0 763 573 aluminum oxide flakes described which contain titanium oxide as main component in addition to aluminum oxide. In this case, aluminum oxide flakes can be used with the properties described above, coated with SiO ₂ , z. B. wet-chemical, were. Such coating methods are known in the art and z. In EP 0 763 573 described.

Especially preferred is the use of uncoated glass and / or alumina flakes, in particular uncoated glass flakes

One Another object of the present invention is a method for coating materials comprising the electrostatic application of Particles of glass and / or corundum.

In a preferred embodiment of the method can before the direct application of the particles a powder coating electrostatically is applied. But also the reverse coating order is possible.

The use of the particles according to the invention in two-stage electrostatic coating processes, the so-called "two-coat-one-bake" process, has proved to be particularly advantageous, as described in US Pat DE 42 38 380 are described.

In another preferred embodiment of the method can the particles of the invention be applied electrostatically directly as a powder.

Electrostatic coating methods are familiar to the expert and are such. In Rompp Lexicon, paints and printing inks, Georg Thieme Verlag, 10th edition 1997, page 185 ff. And page 575 ff described carried out.

at the direct electrostatic application of the invention Particles, the particle powder is preferably by shaking charged triboelectrically and filled in the application unit. Becomes a commercial powder paint gun is used, so will the powder output preferably as low as possible adjusted, but the current flow preferably to a higher, is adjusted directly to the type of powder tuned value. Advantageously, current strengths of 30-50 μA have here proved.

Becomes the particle powder on a previously applied, unbrominated powder coating layer or applied a non-baked wet paint layer is so also prefers in the application of this first layer of Current flow kept low, in particular 5 to 20 μA are advantageous here. The procedure is opposite to the set voltage relatively insensitive.

In Another embodiment of the invention will be particles according to the invention in mixtures with powder coatings, z. B. in so-called dry blends applied. Here you can the particles of the invention in concentrations of ≤ 5 wt .-% based on the total weight of the DryBlends be used. The inventive compounds are preferred Particles in concentrations of 5 to 10 wt .-% based on the Total weight of the DryBlends used. But also the use of up to 20 wt .-% is possible used. The production The powder coatings according to the invention is simple and easy to handle. The invention Particles are mixed with the powder coating, z. With a bucket or tumble mixer. Particularly suitable is the so-called bonding method, in which the powder coating base under nitrogen as inert gas heated to a temperature below the softening point Then, the pigment is added and after the mixing process the powder coating thus prepared is gently cooled. Of the obtained powder coating is stable on storage, d. H. there is no segregation instead of. If the powder coating of the invention on applied the material to be coated, it happens in the Way that the material surface completely covered with a homogeneous powder coating layer.

A reverse layer sequence is also possible by first electrostatically applying the particles directly onto the conductive substrate to be coated and then applying a clear or semitransparent powder coating layer. All Layers are then finally thermally baked together at higher temperatures.

The Particles of the invention can be used on any Materials, for example iron, steel, aluminum, copper, bronze, Brass and metal foils but also conductive modified Surfaces of glass, ceramics and concrete u. ä., as well as on non-conductive surfaces such as wood, glass, Ceramics, plastics, inorganic building materials or other materials applied for decorative and / or protective purposes become. The inventive compounds are preferred Particles applied to plastic and painted surfaces.

One further subject are thus plastics and painted objects, that with an electrostatically applied layer of particles made of glass and / or corundum are coated.

Except the preferred substances and compounds mentioned in the description, their use, means and methods are further preferred Combinations of the articles of the invention disclosed in the claims.

The Revelations in the cited references include hereby expressly also to the disclosure of the present Registration.

The The following examples illustrate the present invention closer, without limiting the scope. In particular, the features described in the examples, Characteristics and advantages of the examples concerned Connections also to others not detailed, but substances and compounds falling within the scope of protection, unless otherwise stated elsewhere. Furthermore the invention is executable throughout the claimed range and not limited to the examples given here.

Examples:

Example 1:

In a first step, a standard powder coating (Tiger Black Series 59 PN 82170 from Tiger Coatings, Austria) was applied to a support by means of a spray gun (Optiselect from ITW Gema with slit nozzle or with baffle) (process conditions: feed max 40, flow air 3.2, volts 40 kV, current 5 μA).

In a second step glass flakes directly by means of a spray gun (Optiselect the company ITW Gema with slot or with Impact) applied to the coated powder coating carrier (Process conditions: Feed min = 00; Flow air 5.7 double; Volt 100 KV; Current 20-40 μA).

Subsequently the coatings are applied in a convection oven (type UMT 6200 of the Company Thermo, Hanau, Germany; Positioning hanging) baked at 200 ° C for 15 minutes.

you receives after firing a black powder coating layer on top of which there are glass flakes. The powder coating This makes it a little matter.

Example 2:

A standard powder paint (Tiger Black Series 59 PN 82170 from Tiger Coatings, Austria) is mixed in the ratio 80/20 with glass flakes or aluminum oxide flakes. This dry blend is then applied to a carrier by means of a spray gun (Optiselect from ITW Gema with slot die or with baffle) (process conditions: Feed min = 20, Flow air 3.2 double, Volt 100 KV, Current 40 μA).

Subsequently the coating is in a convection oven (type UMT 6200 the company Thermo, Hanau, Germany; Positioning hanging) at 200 ° C baked for 15 minutes.

you receives a powder coating layer, incorporated in the glass flakes without significantly changing the color of the paint.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 0289240 [0014]
• US 3718494 [0015]
• - JP 57-111239A [0015]
• JP 04-39362 A [0015]
• JP 03-72527 B [0015]
• EP 0763573 [0015, 0015]
• - DE 4238380 [0019]

Cited non-patent literature

• - Rompp Lexikon, paints and printing inks, Georg Thieme Verlag, 10th edition 1997, page 185 et seq. And page 575 et seq. [0021]
• - PN 82170 [0031]
• - PN 82170 [0035]

Claims (15)

Use of particles, in particular platelet-shaped, spherical and / or irregularly shaped Particles, of glass and / or alumina, in electrostatic Coating process. Use according to claim 1, characterized characterized in that mixtures of platelet-shaped, spherical and irregularly shaped Particles are used. Use according to one or more of claims 1 to 2, characterized in that particles made of corundum. Use according to one or more of claims 1 to 23, characterized in that the Particles are uncoated. Use according to one or more of claims 1 to 4, characterized in that the particles used to make an outer layer become. Method for coating materials comprising the electrostatic application of particles, in particular platelet-shaped, spherical and / or irregularly shaped Particles of glass and / or alumina. Process according to claim 6, characterized characterized in that mixtures of platelet-shaped, spherical and irregularly shaped Particles are used. Method according to one or more of claims 6 to 7, characterized in that before the electrostatic application of the particles electrostatically a powder coating is applied. Method according to one or more of claims 6 to 8, characterized in that the particles be applied as an outer layer. Plastic coated with an electrostatic applied layer of particles, in particular of platelet-shaped, spherical and / or irregularly shaped Particles of glass and / or alumina. Plastic according to claim 10, characterized in that mixtures of platelet-shaped, spherical and irregularly shaped Particles are used. Plastic according to one or more of claims 10 to 11, characterized in that the Layer is the outer layer. Painted object coated with an electrostatic applied layer of particles, in particular of platelet-shaped, spherical and / or irregularly shaped Particles of glass and / or alumina. Painted article according to claim 13, characterized in that mixtures of platelet-shaped, spherical and irregularly shaped Particles are used. Painted object according to a or more of claims 13 to 14, characterized that the layer is the outer layer.