Coating processes – Direct application of electrical – magnetic – wave – or... – Polymerization of coating utilizing direct application of...
Reexamination Certificate
2000-01-18
2001-08-28
Pianalto, Bernard (Department: 1762)
Coating processes
Direct application of electrical, magnetic, wave, or...
Polymerization of coating utilizing direct application of...
C427S180000, C427S258000, C427S287000, C427S318000, C427S327000, C427S388100, C427S435000, C427S512000, C427S553000, C427S558000, C427S559000
Reexamination Certificate
active
06280800
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a process for coating metallic substrates with a powder coat or a liquid coat including the pre-treatment of the substrate surface.
Using powder coats to provide decorative or functional coating of surfaces has been widely used in the coating of metals due to the high economic efficiency of the process as well as its wide acceptance from the point of view of environmental protection. Numerous powder coat compositions have been developed for different applications. The known processes for coating with powder coats require that the metal surface to be coated must be subjected to a costly, generally aqueous pre-treatment process. Without such pre-treatment, the adherence of powder coat layers and hence the corrosion protective effect is insufficient. Such costly pre-treatments are also necessary for the application of aqueous or solvent-containing liquid coats on metal surfaces.
After their application, powder and liquid coats can be cured, or dried and cured, by means of radiation having wavelengths in the near infrared (NIR) region. In the field of powder coating, NIR-technology enables melting and curing of powder coats to be carried out in a single process step, see for example K. Bär, JOT 2/98, pp. 26 to 29 and WO 99/41323. A uniform heating of the whole coating layer is achieved. Such NIR-curing processes also require costly pre-treatment methods for the substrate surface prior to coating.
The pre-treatment of steel or aluminium consists generally of at least several processing steps. First of all, the removal of fats, oils or other impurities is carried out, for example by an alkaline washing using a dip or spray technique. A subsequent interim rinse is generally followed by a wet-chemical deposit of inorganic corrosion protection layers on the surface (for example, phosphating in the case of steel, chromatising in the case of aluminium). A rinsing operation with fresh water or demineralised water is again required in order to completely remove adhered reaction chemicals. The damp metal surface must be dried completely before the subsequent application of the powder or liquid coat layer in order to avoid coating faults. Typical pre-treatment methods for the powder coating of metal surfaces are described for example in T. Molz, Tagungsband der DFO-Pulverlacktagung, 23.-24.9.1996, pages 201 to 207.
This pre-treatment of metal substrates or metal parts prior to coating with powder or liquid coats requires large dip coating tanks or spraying cabins involving considerable investment and operating costs. The chemicals used in the different reaction zones must be kept strictly separate from each other, and spent pre-treatment solutions must be disposed of at high cost. If faults occur in the pre-treatment, faults in the subsequent coating are unavoidable.
SUMMARY OF THE INVENTION
The object of the present invention is accordingly to provide a process for coating metal surfaces with powder or liquid coating composition, which avoids an expensive pre-treatment of the substrate surface prior to the coating application.
This object is achieved by a process in which metal surfaces are irradiated with high-intensity radiation in the NIR region, the irradiated metal surfaces are subsequently coated with a powder and/or a liquid coating composition, and the powder or liquid coat layer than is dried and/or cured.
The process is also characterised in that the drying and/or curing of the powder coat layer or the liquid coat layer is realised preferably by means of NIR-radiation or UV-radiation, more preferably by means of NIR-radiation.
DETAILED DESCRIPTION OF THE INVENTION
According to the invention the metallic surfaces which are not pre-treated in the usual manner are irradiated with high-intensity NIR-radiation, with a wavelength generally in the range from 730 to 1200 nm (near infrared). The irradiation can take place with an intensity of for example more than 1 W/cm
2
, preferably more than 100 W/cm
2
, and over a time period preferably ranging from 1 to 60 seconds, more preferably from 1 to 10 seconds. In general the duration of the NIR-pre-treatment can be from 0.5 to 300 seconds.
Following the pre-treatment by NIR-irradiation of the metal surface according to the invention, the subsequent coating with powder or liquid coating compositions can be carried out, where appropriate as a one-layer or multi-layer coating. The subsequent drying or curing of the coating layers can be carried out in the usual way by methods known in the coating industry. Preferably the drying or curing process can be carried out by means of NIR-radiation or UV-radiation, more preferably by means of NIR-radiation.
The metallic surfaces to be treated according to the invention need not be pre-treated, i.e. no conventional pre-treatment methods are required, such as for example degreasing and passivation (for example phosphating, chromatising).
It is advantageous to clean the metal surfaces to be treated according to the invention of their mechanical impurities e.g. abrasive dust, boring and milling chippings, flash rusting or dust prior to their NIR-pre-treatment. To remove such impurities, known mechanical methods e.g. brushing, vacuum or compressed air cleaning, “sweeping” as well as sandblasting can be used for the coarser impurities or for flash rusting.
As a result of the irradiation with high-energy NIR-radiation according to the invention, heating of the metal surface can occur. Such heating does not have a negative influence on the subsequent powder coating process or on the application of the liquid coat layer, but in fact surprisingly results in an improved coating operation.
Halogen lamps, especially high-performance halogen lamps, for example, suitable for the pre-treatment step in the process according to the invention, can be used as the NIR source. Such radiation emitters with an emission spectrum maximum wavelength between 730 and 1200 nm are suitable.
Coating with thermally cross-linking as well as UV-curing powder coating compositions, or water-based or solvent-containing liquid coating compositions preferably takes place directly after the NIR-pre-treatment of the metal surface. If required, it is also possible to separate in time the pre-treatment according to the invention from the subsequent coating.
Fundamentally, all processes are suited to the application of powder coating compositions and to the application of liquid coating compositions. With regard to the powder composition, electrostatic spray techniques as used in the known corona or tribo processes are particularly preferred. It is also possible to use other known powder application methods, for example application in the form of an aqueous dispersion or “powder slurry”. The liquid coating compositions can be applied on the substrate for example by the well known methods of dipping or spraying.
Known conventional thermally cross-linking powders can be used as the powder coating compositions. In this case thermal curing methods can be used for the subsequent curing of the powder coats, for example heating by means of convection ovens or medium wavelength infrared radiation.
After the pre-treatment according to the invention, it is also possible to apply powder coating compositions that can be cured with UV-radiation. Such powder coats are described for example in European patent applications EP 739922, EP 702067 or EP 636660. Directly after the NIR-pre-treatment, a UV-curing powder coat can be applied on the substrate surface and can be cured in a few seconds by UV-radiation. The residual heat of the NIR-pre-treatment is sufficient to melt the UV-powder coat and to obtain the flow of the coating layer, without the input of further heat. This alternative process according to the invention creates the possibility of a powder coating process with a very low energy consumption.
Powder coating compositions that are suitable for being cured by means of NIR-radiation can also be used. Such powder coats are described for example in WO 99/41323. When such powder coats are used, i
Thiele Olaf
Zimmermann Frank
E. I. Du Pont de Nemours and Company
Pianalto Bernard
Tessari Joseph A.
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