DE974204C - Process for anchoring non-metallic coatings on metallic surfaces - Google Patents

Description

Process for anchoring non-metallic coatings on metallic ones surfaces Resistance and adhesion of any coating to any Substances do not only depend on the properties of the paint itself and the Influences on this from the outside, but from the purity and similarity the surface to be covered. It is known that the surfaces of bodies are thereby to clean that the body is immersed in liquid and the rapid alternating pressures exposed to ultrasonic waves.

In the method according to the invention for anchoring non-metallic According to the invention, coatings on metallic surfaces are the metallic surfaces after a dry cleaning carried out in a manner known per se by means of ultrasound sonicated during the application of the not yet dried coating. The non-metallic Coatings can be of any type, e.g. B. So paint or varnish coatings, synthetic resin, Rubber or other electrically insulating or heat insulating coatings, for example made of rubber or glass. Also to be phosphated or with other chemical processes Surfaces to be treated can be treated in the manner according to the invention.

The above non-metallic coatings, e.g. B. made of paint, synthetic resin, Rubber, glass, etc., cover the so-called visible with the naked eye Surface flawless. The real (physical) surface that is speaking Enlargement of a mountain range with innumerable fissures, craters, crevices and tubes are there, but is only covered in such a way that the varnish, etc., a cover represents carried by the bumps on the so-called real surface will. In contrast, air residues may remain in the depressions in the surface also minor soiling.

However, sonic or ultrasonic vibrations according to the invention brought into action during the application of the coatings and for a short time afterwards, in this way, the air residues, possibly also any remaining pollution, shaken out of the depressions. The air residues escape through the coating mass outdoors, the dirt remains finely distributed within the coating compound, without bothering much. On the other hand, the coating compound tears away from the surface due to the sonication, as the coating completely covers the surface, so it seals in a gas-tight manner, so that it is firmly attached to the surface in spite of the sonication effect remains sucked in. It is thus achieved that the not yet dried coating firmly anchored in the aforementioned fissures, craters, crevices and capillaries. The adhesive strength, uniformity and cohesion of the coating made of lacquer, Resin, rubber, glass, etc. are considerably improved. When using the Method according to the invention, it is therefore advantageous to use the surface z. B. only to grind, but not to polish them. The anchoring of the coatings then takes place the cheaper.

The cleaning by means of ultrasound is carried out in a manner known per se Way in the dry state, as there are no residues of a coupling liquid can be left behind on the body to be cleansed. When performing the dry Cleaning of surfaces after the removal of the solid, liquid, gaseous or vaporous ones and condensed impurities may be another drying process of the surfaces themselves can be achieved. When the high-frequency vibrations after full If cleaning of the surfaces is continued, there are also thermal effects.

The high-frequency mechanical (acoustic) Vibrations and the ultrasonic waves. By ultrasound from z. B.

300 kHz experience the dust on the surfaces of bodies and teardrop-shaped particles accelerations of Io5 times the acceleration of gravity. Their adhesive strength to the surfaces is all the more negated than the body surfaces achieve other frequencies and amplitudes.

The method according to the invention can be used with considerable advantage Negative pressure can be applied. The lifting of the atmospheric pressure on the Surface causes the discharge of attached solid particles to the outside, the Expansion and the partial emergence of gas or vapor bubbles and the like the bumps. This and as a result of the simultaneous increase in volume of the gas inclusions the negative pressure increases the effect of the vibrations shaking off the substances reinforced.

In the context of the invention, the surfaces to be treated can also be heated. As a result, the volumes of deposits and deposits that are caused by high-frequency vibrations themselves increase as a result of the heat effect, further enlarged.

When using the method according to the invention, if necessary at Under pressure and with additional heating, purity and uniformity are achieved the surface to be protected is guaranteed. This becomes the chemical and physical Possibility of attack against the surface protection agents described from the side of the body to be protected is considerably restricted.

Claims (3)

PATENT CLAIMS: I. Method for anchoring non-metallic coatings on metallic surfaces, characterized in that the metallic surfaces after cleaning in a known manner using ultrasound on dry Ways without the simultaneous use of a cleaning liquid during application of the not yet dried coating can be sonicated. 2. The method according to claim, characterized in that the treatment, especially cleaning is carried out at negative pressure. 3. The method according to claim I and 2, characterized in that the Treatment is carried out with additional supply of heat. ~~~~~~~ In Publications considered: German Patent No. 733 470.