DE10235941A1 - Process for printing on metallic surfaces - Google Patents

Abstract

A method for printing on metallic surfaces using the thermal diffusion method is described. The method works with an adhesive which is permeable with respect to the dyes of the print to be transferred, the actual thermal diffusion process being carried out without pressure. In this way, the "handling" of the method can be simplified.

Description

The present invention relates to a process for printing on metallic surfaces Application of the thermal diffusion process.

It is known to material surfaces after the so-called thermal diffusion process or sublimation process to print. So-called transfer materials are used here, which are provided with the pressure to be transferred to the material surfaces are. The dyes (pigments etc.) of the print on the transfer material have the property of changing to the gaseous state under the influence of heat and penetrate into certain materials in order to find out about absorption processes and / or Solution processes to be bound. A prerequisite for the thermal diffusion of dyes are suitable acceptor layers. These acceptor layers are located on the materials to be printed.

Such a thermal diffusion process is used, for example, when printing on textile materials. Here, a printed carrier web is used as the transfer material merged under pressure in a roller system with a textile web that over a close contact at about 200 ° C the print motif on the textile web with a dwell time of approx. 30 sec is transferred and diffused into the textile fibers. With this Process will that on the carrier web, for example a paper web, printed motif in good print quality on the Transfer textile web.

Another method is from the AT 404 899 B. This procedure is used simultaneously with the dye transfer via a Printing roller system changes the crystal structure of a carrier material so that the diffusion and absorption of the dyes is made possible.

Offer discontinuous processes wherever production processes are largely discontinuous expire. For example, predominantly in the laminate board industry worked discontinuously. Different resin-impregnated sheets will be assembled into a laminate under pressure and temperature. You choose the top layer synthetic resins so that they meet the requirements of Any combination can suffice for thermal diffusion of dyes of composite materials superficially using this method various printing motifs (AT 404 240 B). The individual layers are joined by machine or by hand and layer by layer pressed together.

Furthermore, from WO 9530552 Process known in which metallic materials over the Thermal diffusion processes can be printed. As such metallic Materials used as decorative surfaces of furniture, etc. should find arches or plates made of aluminum, copper, stainless steel, nickel etc. use. These arches or Plates are provided with appropriate acceptor layers on the surface. Pressure and temperature then cause thermal diffusion transitions from Dyes of substrates initiated into the acceptor layers.

In the above known method is used to carry out the thermal diffusion process always worked with both pressure and heat.

The present invention lies based on the task of a method for printing on metallic surfaces using the thermal diffusion process to create the a particularly high print quality and particularly good "handling" distinguished.

• a. Vorsehen eines mit einem über das Thermodiffusionsverfahren transferierbaren Durck versehenen Transfermateriales;
• b. Vorsehen eines zu bedruckenden, mit einer für das Thermodiffusionsverfahren geeigneten Akzeptorschicht versehenen metallischen Materiales;
• c. Aufbringen eines in bezug auf die Farbstoffe des Drucks durchlässigen Klebers auf die Akzeptorschicht des metallischen Materiales und/oder das Transfermaterial;
• d. Verkleben beider Materialien, so daß das Transfermaterial mit der Akzeptorschicht in Anlage tritt, zur Erstellung eines Laminates;
• e. druckloses Erhitzen des Laminates zur Initiierung und Durchführung des Thermodiffusionsverfahrens; und
• f. Entfernen des Transfermateriales vom Laminat.

According to the invention, this object is achieved by a method with the following steps:

• a. Providing a transfer material provided with a transfer material that can be transferred via the thermal diffusion process;
• b. Providing a metallic material to be printed, provided with an acceptor layer suitable for the thermal diffusion process;
• c. Applying an adhesive which is permeable to the dyes of the print to the acceptor layer of the metallic material and / or the transfer material;
• d. Gluing both materials so that the transfer material comes into contact with the acceptor layer to create a laminate;
• e. pressureless heating of the laminate to initiate and carry out the thermal diffusion process; and
• f. Remove the transfer material from the laminate.

The method designed according to the invention is distinguished from the prior art in that the initiation and implementation of the thermal diffusion process takes place in a pressure-free manner. The transfer material and the metallic material provided with the acceptor layer are glued together, so that the transfer material comes into contact with the acceptor layer. An adhesive is used which is permeable with respect to the dyes of the print of the transfer material, so that the course of the thermal diffusion process is not hindered by the adhesive applied. After the two materials have been glued to form a laminate, the laminate is heated without pressure to initiate and carry out the thermal diffusion process. As a result of the heating, the dyes of the pressure on the transfer material change into the gaseous state and penetrate into the acceptor layer of the metallic material and are firmly bound there by absorption processes and / or dissolution processes. The transfer material is then removed from the laminate, which now has a surface provided with the printing of the transfer material.

As mentioned, the method according to the invention works while the actual thermal diffusion process without pressure. The through the bond achieved close contact between the two material surfaces is sufficient to the Transfer process correct to expire. In this way, the "handling" of the process much easier, since special devices for applying pressure (Presses etc.) can be omitted. As experiments have shown, the inventive method Furthermore excellent print quality achieved.

The method according to the invention is preferred carried out continuously. It suitably takes place as a transfer material a transfer material web and as a metallic Material a metal sheet use. Preferably, the Transfer material web and the metal web each unwound from a roll, at least one of the webs is provided with the adhesive, and the Sheets are glued to the laminate using pressure rollers.

To initiate and implement the The laminate obtained by gluing becomes a thermal diffusion process preferably at 150-250 ° C heated. The type of heating is not critical, for example it can be done by IR radiation or with the help of hot air. The duration of the heating depends on the process parameters to be determined empirically.

Preferably used as transfer material use a transfer paper or a transfer film. such Papers or foils are known and for the process according to the invention also not critical. So can commercial Sheets or papers are used that match the one you want Print motif are provided.

The acceptor layer on the metallic material is not critical and it can be known Acceptor layers for the inventive method be used. For example, an acceptor layer can be on Base of epoxy resins and / or polyester resins can be used.

The essential thought that the inventive method underlying, is not the actual transfer process (thermal diffusion process) with the help of pressure and heat, but exclusively by exposure to heat. To ensure intimate contact between the materials, which enables the thermal diffusion process to run correctly the materials with each other before the actual thermal diffusion process unites what happens with the help of an adhesive. This glue is applied to at least one material, preferably the metallic material, applied, after which both materials merged and be glued, for example with the help of pressure rollers, so that a Laminate is created. If a solvent Glue is applied, so the solvent when gluing evaporated.

It goes without saying that the actual Gluing work under pressure and / or heat can, for example, the solvent of the glue to evaporate. It is essential, however, that the actual (Subsequent) thermal diffusion process only under the influence of heat is worked. This process is only after gluing by heating to the initiation temperature for the Thermal diffusion process (e.g. 150-250 ° C) put on the way.

So that the dyes of the print from Transfer material into the acceptor layer of the metallic material can diffuse in, have to they penetrate the adhesive layer between the materials. According to the invention uses an adhesive that is permeable to these dyes. As suitable according to the invention have glue based on a material made of polyvinyl alcohol (PVA), alginates, dextrins and / or gum arabic existing group proved. Layers made from such adhesives essentially no hindrance to the dyes to be transferred represents.

The method according to the invention offers a number of benefits. Tests have shown that using this indirect method printed metallic surfaces different advantages compared to direct pressing Offer help with a deck press. If you compare using the direct method created, about the thermal diffusion principle with printed metal surfaces the indirect according to the invention Process printed surfaces provided that the same, common in the laminate industry If acceptor layers are used, then they have the method according to the invention created laminates with a metallic surface a much better Score of the print on. This results in a higher edge sharpness Edges and lines and thus a better quality printed image. are the print media Printed in rotogravure, the dots can still be seen under the magnifying glass.

It is understood that the printed according to the invention metallic materials (metal tracks) about further process steps to appropriate laminates for the respective application can be produced.

The "handling" of the method according to the invention offers further advantages. The penetration of transfer papers into the build-up of several resin-impregnated layers, which is common with layer materials, is only mechanically possible with high paper weights coming transfer papers - if at all due to the low stiffness of high-gram, non-resin-soaked papers - possible. Manual insertion into the stacks requires precise edge alignment and the highest concentration of personnel in difficult print motifs. The continuous process according to the invention, on the other hand, which can run on modern coating systems with modern edge control systems, ensures a constant pressure alignment. Furthermore, the risk of the transfer sheets slipping in the stacks intended for pressing is prevented either by mechanical influences or by thermally induced horizontal movements in the presses.

With the method according to the invention Printed metallic materials can be found in many areas, for example in the furniture industry, in the automotive sector, in exhibition stand construction, use. The increasing demand made from scratch-resistant surfaces by nanodisperse processes or the sol-gel process in combination with synthetic resins based on the principles of radical hardening processes will work, is by the thermal diffusion method according to the invention optimally supplemented. such printed surfaces can in a further coating process inexpensively from roll to roll corresponding paint systems overpainted so that metallic, printed and with high surface quality decorative materials can be produced.

The invention is explained below explained by examples:

example 1

A fully saponified polyvinyl alcohol with the ester number 20 + -5 mg KOH / g and a residual acetyl content of 1.5 + -4% by weight is heated 10% dissolved in water. To 20 g of this solution 2.5 g of polyethylene glycol 400 and 4.5 g of dispersion 1128 (commercial product the Farma Paramelt).

The resulting adhesive is then applied with a dry application weight of approx. 4 g / m ² by customary methods to an aluminum foil provided with an acceptor layer suitable for the thermal diffusion method, and by means of printing a commercially available thermal transfer paper printed with a single or multi-colored motif laminated. The resulting laminated composite is treated at temperatures of approx. 70 ° C until the solvent of the laminated adhesive has evaporated. The composite is then exposed to a temperature of 200 ° C. for about 60 seconds and the transfer paper is peeled off. The print motif was transferred to the painted metal surface.

Example 2

A fully saponified polyvinyl alcohol with the ester number 20 + -5 mg KOH / g and a residual acetyl content of 1.5 + -4% by weight is heated 10% dissolved in water. To 20 g of this solution 2.0 g of a non-crystallizing, approx. 70% sorbitol syrup and 1.5 Dispersion 1128 (commercial product from Paramelt) introduced.

On a coating system, so much lamination adhesive is applied by means of rollers onto a metal web which is provided with an acceptor layer suitable for the thermal diffusion process, so that an evaporation weight of approximately 4 g / m ² results after evaporation of the solvent. A commercially available, printed transfer paper is laminated against the non-dried adhesive layer by means of rollers. The laminated laminate runs into a dryer station and is first dried at approx. 80 ° C until an intimate bond is created between the paper and the metal sheet. In further dryer sections the temperature is increased up to 230 ° C until the motifs on the transfer paper have been transferred satisfactorily. Then the two layers of the composite are separated.

Claims (10)

Process for printing on metallic surfaces under Use of the thermal diffusion method with the following steps: a. Providing one with one over the thermal diffusion process of transferable printing provided transfer material; b. Provide one to be printed, with one for the thermal diffusion process suitable acceptor layer provided metallic material; c. Application of an adhesive permeable to the dyes of the print on the acceptor layer of the metallic material and / or the transfer material; d. Glue both materials so that the transfer material with the acceptor layer comes into contact to create a laminate; e. pressureless heating of the laminate to initiate and carry out the Thermal diffusion process; and f. Remove the transfer material from the laminate. A method according to claim 1, characterized in that it is continuous carried out becomes. A method according to claim 2, characterized in that as the transfer material a transfer material web and as a metallic material a metal web is used. A method according to claim 3, characterized is characterized in that the transfer material web and the metal web are each unwound from a roll, at least one of the webs is provided with the adhesive and the webs are glued to the laminate with the aid of pressure rollers. Method according to one of the preceding claims, characterized in that that this Laminate is heated by IR radiation or hot air. Method according to one of the preceding claims, characterized in that that as Transfer material uses a transfer paper or a transfer film becomes. Method according to one of the preceding claims, characterized in that the existence metallic material with an acceptor layer based on epoxy resins and / or polyester resins is used. Method according to one of the preceding claims, characterized in that the existence containing solvents Glue applied and the solvent is evaporated when glued. Method according to one of the preceding claims, characterized in that the existence Glue based on a material made of polyvinyl alcohol (PVA), Alginates, dextrins and / or gum arabic existing group applied becomes. Method according to one of the preceding claims, characterized in that that this Laminate for initiation and implementation of the thermal diffusion process to 150-250 ° C is heated.