DE2210894A1 - Process for the production of coatings based on modified unsaturated polyester resins - Google Patents

Description

Schkopau, February 24, 1971

Process for the production of coatings on the Based on modified unsaturated polyester resins

The invention "relates to a process for the production of Coatings based on modified unsaturated polyester resins, preferably for decorative IT film materials and laminates with and without pinishe effect that can be produced therefrom, with absorbent, pigmented supports as carriers Monochrome and / or printed papers can be used by means of electron beam hardening.

It is known that coatings based on unsaturated polyester resins, such as those used for decorative films, for example can be used by soaking the appropriate substrate material with polyester resin solutions using organic peroxides as hardeners and optionally of accelerators. Complete curing takes place at temperatures between 80 and 16o ° G. To the To achieve surface effects, another coating is necessary, which is done in a second step must be applied. The hardening of the top layer takes place in the same way as with the impregnating resin,

This method has the disadvantage that two operations are required to achieve a pinishe effect on the top layer are. Another disadvantage is that the impregnating resin used as the substrate has poor wettability the cover resin has, which can lead to quality defects.

During the thermal curing of such two-layer systems evaporate any solvent used and some of the

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monomers required for copolymerization, which must therefore be added in excess. The energy expenditure ' for drying is also relatively high and inefficient. Modern methods of radiation curing are based on that The aforementioned systems are also not applicable.

Ed is still known to be modified radiation sensitive to use unsaturated polyester resins for impregnating and coating suitable carrier materials. However, cobalt accelerators must be added to these modified unsaturated polyester resins, which is the case with light or white substrate material leads to undesirable parabelling, or the earze have does not have a sufficient impregnating resin character, whereby the insufficient Impregnation speed can lead to filter effects. Further known radiation-chemically curable unsaturated Polyester resins, e.g. B. those that are cured with paraffin additives or by means of UV radiation are to be pre-gelled, turn out to be used simultaneously as impregnating and coating resins for film production due to the paraffin layer that forms or the need for a TJV irradiation system in addition having to install as unsuitable. Unsaturated polyester resins, which are used for complete radiation chemistry Curing initiators such as phosphines, arsines and / or stibines are added because of the need for this Radiation dose of ^ 10 megarads also unsuitable.

It is the purpose of the invention to use the technology in the production of coatings in which the substrate material is impregnated and provided with a top layer, for example decorative foils with pine effect or laminates,

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to improve and to make radiation-chemical curing accessible, so that the disadvantages of thermal curing be avoided.

The invention is based on the object of a method for the production of coatings on the basis of modified unsaturated polyester resins, which are made from a Tränkuiid consist of a top layer with a finish effect, in which the impregnation process and the application of the top layer can be carried out in one operation and then Radiation-chemical curing takes place at radiation doses of ^ 10 megarads.

The gave up is achieved in that an absorbent base material with an unsaturated polyester resin containing up to 28 # halogen and / or 1 to 1o $ isocyanate groups and / or 1 to 1o $ epoxide groups and / or 1 to 1o jS organotin compounds are condensed and / or up to 10 # with a fumaric acid diester, for the production of which monohydric alcohols from C ^ to Cr are used, contains added, starting on one side from the top, optionally with the interposition of dipping and breathing sections, and the decorative side is soaked with the same or a different agent Electron beam curable polyester resin combination in one

Amount up to 4oo g / m coated and by means of electron beams in the presence of atmospheric oxygen at radiation doses <10 megarad is cured. Embossing tools can be used to refine the surface Imprint a cough or the like when the hardening is being carried out until it is tack-free. Also is It is possible to use varnish resin systems for the decorative layer, to which pigments, metal powder and fillers are added use.

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The comparison of FIG. 1 shows the superiority of the manufacturing method according to the invention for decorative films peroxide and thermally cured films and radiation-chemical curing.

Decorative film

Classically hardened

radiant chem. hardened

Peroxide, heat 2 to 8 megarads

Curing method Resin content, based on the mass of the paper carrier, $> bending radius, mm swelling in thickness (3ο min. In boiling water), #

Shear Strength, kgf / cm dry

Shear strength after hours of immersion in water

Resin curable in the presence of atmospheric oxygen

Bondability with

Production speed.

The invention is to be explained in more detail with the aid of the following examples.

example 1

A paper web 13oo mm wide, with a surface density of 12o g / m made of a highly bleached sulphate pulp, pigmented with 18 f> rutile and printed with stripe decoration, is

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38 to 4o 38 to 5o 1o 2 15 to 23 •
17 to 23 43 to 53 8o to 12o 1 to 5 1 to 33 no
(yes, against
waiting for solution
excess funds) 3 ^a Special adhesives
based on
Pressure sensitive adhesives, among others Wood glue
substances, urine
resin
movies ^ 1 ο m / min. 45 m / min.

3 breathing rolls and a dipping zone soaked with a modified unsaturated polyester resin. A polyester is used as the resin, which was condensed from maleic anhydride, hexachlorendomethylene tetrahydrophthalic anhydride, ethylene glycol and diethylene glycol and mixed with 42% by weight of monstyrene, a viscosity of about 100 oP and a soaking time of 1o see. at a bath temperature of 28. After squeezing between pairs of rollers, the impregnating resin content is 36 to 37 weight-56, based on the mass of the backing paper. The film is free from glossy resin layers. A varnish resin film with a thickness of 50 mm is applied to the uncured carrier paper web obtained in this way by means of roller or squeegee application or screen printing, for which an unsaturated polyester resin made of maleic anhydride, phthalic anhydride and propylene glycol is used, which is epoxidized to about 1o # and reacted with 5 fi tolylene diisocyanate and then was dissolved in monostyrene in a ratio of 75 parts resin: 25 parts monostyrene. The film is then cured in one operation using highly accelerated electron beams. The radiation dose required for tack-free curing in the presence of atmospheric oxygen is 4 megarads. The decorative films without finish produced according to this example have the following properties:

Shear strength according to TGL 2529o, sheet 5

- dry 92 kp / cm

- wet, after 24 hours of _{immersion in water - 2} 19 kp / cm

Bending radius (bending over mandrel) 2 mm

Acetone-soluble components (32 hrs. Soihlet) 15 # Absorbency to water

(Height of rise test) 0 mm

Thick swelling in boiling water (3o min.) 18 $> What s absorption (3o min. Boiling water) 2o 56

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The film is raittelsr urine toff adhesive film at 10O ⁰ C and a specific pressure of 4 kgf / cm on wooden stick. The applied lacquer layer is completely free of ebb and has a trooken degree of 6 to 7 (according to 143o1 sheet 3). The scratch hardness (sapphire hardness) according to TGI 23823 sheet 7 is 38 p / 50 mm.

Example 2

With an unsaturated Polyesterharzj having a chlorine content of 25 to 28 $> and a styrene monomer content of 38 to 4o $> and reacted with 5 56 tolylene diisocyanate WUR de, a paper web is impregnated as shown in Example 1 and coated. The same resin with a monostyrene content of 25 to 28 # is used for the coating. The necessary radiation dose for curing is 3 megarads. The film is then embossed with a raised pore structure with the aid of a carrier roller. A film is obtained which, in addition to the printed decoration, has a wood-like embossing. Due to the sharp-edged embossing, there are no cracks in the paint, as the resin system used creates a post-curing effect that largely stabilizes the embossing for further processing.

Example 3

A film according to Example 1, which is coated with an unsaturated polyester resin that has both isocyanate groups as well as with Epoiydgruppen is modified before curing with a second unprinted film web the same layer structure joined together. The one to it necessary pressure is either generated by simultaneously deflecting the webs over rollers at an angle of

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approx. 3o ° or by guiding over a large drum roller undervoltage. At the same time, the applied lacquer resin is hardened by means of highly accelerated electron beams. The radiation dose is 4 megarads. The laminate obtained is used as a narrow surface material for the Suitable for surface finishing of panel materials made of wood.

Example 4

A film according to Example 1 is treated with an unsaturated polyester resin that is modified with isocyanate groups soaked in the manner indicated in Example 1. An unsaturated polyester resin is used for the coating was reacted with 2 weight ^ dibutyltin oxide, one has an average chain length of 10 condensation units and its monostyrene content is 24 to 25 #. The coating is carried out by means of a doctor blade in such a way that a paint application of approx. 150 g / m 2 or a final film thickness of approx. 140 nn is achieved. The coating is then applied together with the impregnating resin hardened in one pass by means of highly accelerated electron beams. TJm immediately after irradiation To achieve tack-free properties and a degree of dryness of 6, 5 megarads are required when in the presence of atmospheric oxygen is hardened. The film can be glued to carrier materials on wood using the known wood adhesives. After finishing, if necessary after a slight final sanding, it has a surface hardness of 160 up to 180 see. Pendulum hardness values were measured.

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ORIGINAL INSPECTED

Claims (2)

Claims 1. A process for the production of coatings based on modified unsaturated polyester resins, preferably for decorative film materials and laminates with and without Pinishe effect that can be produced therefrom, by means of electron beam curing, characterized in that an absorbent substrate material with an unsaturated polyester resin containing up to 28 $> halogen , and / or 1 to 1o % isocyanate groups, and / or 1 to 1o fi epoxy groups and / or 1 to 1 ^{o e} ß> organotin compounds condensed in and / or up to 1 o jt with a fumaric acid diester, for the production of which monohydric alcohols of C. to Cr are used, contains added, starting on one side from the upper side, optionally with the interposition of immersion and breathing sections, soaked and the decorative side with the same or a different polyester resin combination in one 2 2 Amount up to 400 g / m, preferably 3o to 15o g / m, is coated and by means of electron beams in the presence of air acidic off at exposure doses <1 ο Megarad is cured. 2. The method according to claim 1, characterized in that the hardening is carried out until the upper side is free of lifespan and the upper side is also carried out in a known manner is provided with an embossing pattern. S. The method according to claim 1 and 2, characterized in that that a varnish resin system, the Fcrt) -stoffpigmente as a top layer and fillers are added is used. 2098U / 1018