NO168753B - PROCEDURE FOR REDUCING THE FORMAL HYDRAULIC RELEASE FROM SPONES AND FIBER PLATES FINISHED WITH PROCESSING LAYERS. - Google Patents

Description

The invention relates to a method for reducing the release of formaldehyde from chipboard and fiberboard that is veneered with a finishing layer, the chipboard or fiberboard belonging to emission class El.

Chipboard means boards made of wood chips, which are hot-pressed with a synthetic resin glue binder. The properties of the chipboards can be greatly varied by the size, shape and arrangement of the chips and the amount of synthetic resin, which is generally in the range from 5 to 10%. The chipboards can be coated with decorative films, primer films and veneers, for example with valuable types of wood.

In the Federal Republic of Germany, the consumption of chipboard has risen very strongly in recent years. While the production of chipboard in 1969 was 3.4 million cubic metres, it rose in 1971 to 4.3 million cubic meters and already in 1980 went up to 6.2 million cubic metres.

Urea resins or aminoplasts are without comparison

the most used chipboard binders. They are distinguished by their favorable price and high firmness when gluing, and also enable very short press times. However, the urea resins have the major disadvantage that during the use of the chipboards they emit formaldehyde, which not only has an unpleasant smell,

but is also a health concern. Certain restrictions therefore apply to the use of urea resins as binders.

It is already possible today, also according to other methods, to produce aminoplast-bonded chipboards with a formaldehyde release, measured according to the perforator method (DIN EN 120, Determination of formaldehyde in chipboards, Perforator method, Beuth-Verlag, Berlin, Koln), of less than 10 mg /100 g "atro" disc. Building chipboards of this emission class (El) can be used without restriction in living spaces without planks and without layers (compare ETB guidelines 1980: Guidelines for the use of chipboards in terms of avoiding impermissible formaldehyde concentrations in the room air, version April 1980, Beuth-Verlag , Berlin, Cologne).

Isocyanates have so far only been used to a small extent as binders for chipboard. However, diphenylmethane diisocyanate in particular has proven to be an excellent binder, with which boards with high durability can be produced. However, the price of these products has so far prevented a wider application.

In the published European patent application 0012169, the multi-layered, mainly aminoplast-bonded chipboard or fiberboard is described, which in an inner area, preferably in the middle layer, as binder exhibits an adhesive which does not belong to the group of aminoplasts, for example diisocyanatej and which is characterized by the fact that for this inner area, only such binders are used, the curing of which is not affected by the presence of additional formaldehyde-reactive substances, whereby the binder is mixed with these additional substances in the form of ammonia, ammonium carbonate, urea, thio-urea, melamine or dicyandiamide, which directly react by binding with the formaldehyde that is still present or becomes free after pressing the plate under the influence of moisture and/or heat, possibly also indirectly via decomposition products.

The published European patent application 0 006 486 relates to a method for reducing formaldehyde release from aminoplast-bonded chipboard or fiber boards, in which urea or other substances that release ammonia are applied to the surface of the boards in a hot state, immediately after their removal from the hot press in the form of an aqueous solution.

However, these El panels are veneered in the cross-timber industry

in many cases with a finishing layer, for example with mahogany, for example for the production of panels. In the cross-timber industry, it is common for veneering to use urea-formaldehyde resins with a high formaldehyde content (molar ratio urea:formaldehyde 1:1.6 to 1:1.8) as a binder between the veneer and the board. Thermosetting, formaldehyde-rich urea-formaldehyde resins are also used when applying plastic surfaces in furniture construction.

When using these binders, the release of formaldehyde from the veneered or otherwise coated boards, depending on the coating type, wood species, thickness, cut direction and manufacturing conditions, can increase so that the statutory requirements are no longer met. Also the formaldehyde-reducing effect of the closure (e.g. of the veneer) is lost and completely covered (compare Marutzky, R., Mehlhorn, L. and Wenzel, W., 1981: "Empfehlungen zur Verwendung von Spanplatten im Mobelbau", lecture, held on the occasion of the symposium of Mobil Oil AG in Grainau on 18 September 1981). This occurs in particular, when the formats of the veneered plates or the panels are very small (compare the ETB guidelines).

It is thus a task for the present invention to provide a method for reducing the formaldehyde release from chipboard and fiber boards that are veneered with a finishing layer, the boards belonging to emission class El and the finishing layers are applied using urea-formaldehyde resins with a high formaldehyde content.

The method described in the above-mentioned European patent application 79101728.8 is not suitable for solving this task, as the finishing layers were damaged and strongly discolored by spraying urea or other substances that release ammonia in the form of an aqueous solution onto the already veneered plates.

Surprisingly, it was now found that the above-mentioned task can be solved by a method as indicated in connection with the task, which is characterized by the fact that the plates are treated in a known manner with aqueous solutions of urea and/or other compounds before veneering which splits off ammonia, and that the finishing layers are then applied in a manner known per se.

The boards treated according to the invention are preferably veneered with mahogany wood.

In the method according to the invention, urea and/or other compounds which split off ammonia, such as ammonium carbonate, are used as formaldehyde-reactive substances. Such substances are described in the European patent application 79103902.7 (corresponding to DE-PS 2829021). In the method according to the invention, the formaldehyde emission from the raw boards themselves shall not be reduced, as in the method according to the invention, boards of emission class Ei are used, for whose use in the construction industry no further reduction of their formaldehyde emission is required. According to the invention, it is possible to veneer boards, which hardly emit formaldehyde, using urea-formaldehyde resins, without the finished veneered board emitting impermissible amounts of formaldehyde. The chipboard acts as a carrier for the formaldehyde trap. Due to the spatial separation between the urea-formaldehyde resin and the formaldehyde trap, the curing of the resin takes place undisturbed, while the free formaldehyde in the plate is captured (compare discussion of the state of the art in DE-PS 2851589).

During the veneering process, the free formaldehyde migrates from the surfaces of the plates into the interior of the plates, where the formaldehyde trap is located (compare in this regard the teaching in DE-PS 2851589). There, the diffusing formaldehyde reacts with the formaldehyde traps. In this way, the release of formaldehyde from the veneered panels can be drastically reduced. In the method according to the invention, aqueous solutions of urea and/or other compounds which split off ammonia are used. The aqueous solutions can exhibit concentrations in the range from 5-60%, preferably from 30 to 50%. They are produced in a simple way, by dissolving the corresponding compounds in water. As compounds which split off ammonia, ammonium carbonate and ammonium bicarbonate can be used. Preferably, urea is used in a mixture with ammonium carbonate.

The area of application for. the present invention is not limited to aminoplast resin-bonded chipboards of emission class El, but the method according to the invention can also be used successfully on isocyanate-bonded chipboards and phenol-formaldehyde resin-bonded chipboards, which in and of themselves hardly or do not release formaldehyde, but increase in formaldehyde release potential when veneered with aminoplast resins as binder. Low-emission fiber boards can also be treated according to the method.

The following example explains the invention.

Example

A chipboard of emission class El [perforator value 8.0 milligrams (iodometric) or 6.1 mg (photometric)/100 g "atro" plate] was coated with 220 g/m'' of a 50% urea-formaldehyde resin solution (molar ratio 1:1.6) and then coated with a veneer ( mahogany, thickness 0.6 mm).

As a comparison, the same plate was sprayed under the same conditions before veneering with a 30% urea solution in an amount of 100 g/m o and then veneered as described.

The following table shows the amounts of formaldehyde released from the veneered chipboards according to the WKI method (Roffael, E., 1975: Messung der Formaldehydeabgabe. Praxis-nahe Methode zur Ermittlung der Formaldehydeabgabe harnstoff-harzgebundener Spanplatten flir das Bauwesen. Holz-Zentral-blatt 101 , pages 1403 to 1404). The formaldehyde emission amounts from the unveneered board are also indicated. From the information in the table, it is clear that there is a significant reduction in the release of formaldehyde when the chipboards are treated with formaldehyde-reactive substances compared to the untreated boards. This reduction is after a trial duration of 144 hours in the WKI test of over 30%. The formaldehyde release amounts were not determined using the perforator method on veneered chipboards, as the perforator method is not applicable to coated or otherwise surface-treated boards according to the ETB guideline.

Claims (5)

1. Method for reducing the formaldehyde release from chipboard and fiber boards that are veneered with a finishing layer, as the boards belong to emission class El and the finishing layers are applied using urea-formaldehyde resins with a high formaldehyde content, characterized in that the plates are treated in a known manner with aqueous solutions of urea and/or other compounds which release ammonia before the veneering, and that the finishing layers are then applied in a known manner. 2. Method according to claim 1, characterized in that chipboard or fiber boards are used, which are bound with alkaline phenol-formaldehyde resins or diisocyanate resins. 3. Method according to claim 1, characterized in that the treatment with the aqueous solutions takes place by spraying. 4. Method according to one of the preceding claims, characterized in that the aqueous solutions have concentrations in the range from 5 to 60%. 5. Method according to one of the preceding claims, characterized in that ammonium carbonate, ammonium bicarbonate or urea mixed with ammonium carbonate are used as compounds which split off ammonia.