FI124417B - Use of fire protection film as coating on wooden board and method of protecting a wooden board - Google Patents

Description

Use of a fire protection film as a coating for a wood board and a method for protecting the wood board

The invention relates to the use of a fire protection film by attaching it to a fire-resistant wood panel 5. The invention further relates to a method for protecting a wood board from fire.

To date, fire protection of wood-based boards such as glulam, plywood, chipboard, fibreboard or the like has been achieved by absorbing flame retardants in the board. The impregnation may be by dipping, dipping, brushing or spraying. However, sanding and fogging require multiple treatments and intermediate drying between them, which makes the process slow and not widely used. There are also brushable fire protection paints which, instead of impregnating, aim to protect the surface of the wood board.

Absorbent flame retardant consumes a large amount of protective agent, as it is required to achieve sufficient concentration of flame retardant in the surface layer of the board while absorbing deeper into the core of the board. When the protective agents used are mostly water-soluble, this results in the disadvantage that rainwater rinses the protective agent from the surface layer of the sheet, weakening the protection. The protected sheets are thus poorly suited for outdoor use.

On the other hand, it is known to coat a wood-based board, such as plywood, chipboard, fiber board or hardboard, with a heat-cured, resin impregnated protective film. The barrier film is typically kraft paper which is impregnated with a phenolic or amino resin and affixed to the plate at elevated pressure and in a patient. The protective film makes the material resistant to mechanical stress,

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^ 25 to resist moisture penetration and to remain unchanged for outdoor use. Examples of this technique include Fl patent application 20050172 O) and, at the time of filing the present application, still secret Fl patent application ϊ 20096186.

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A resin impregnated barrier film on a wood-based board could act as a barrier to rainwater penetration into the board and to remove the flame retardants in the board, thereby affecting the long-term fire protection of the board. However, since impregnation resins are organic, flammable compounds, however, the coating film as such does not solve the problem of wood panel fire protection. It is also not known to Applicant 2 that the resin impregnated coating film was used for fire protection of the sheet.

It is therefore an object of the present invention to provide a solution that improves the fire protection of wood-based board while reducing the consumption of fire retardants. The solution of the problem according to the invention is the use of a film containing a fiber base, a flame retardant, and 26-74% by weight of a binder resin as a heat-cured flame retardant in a structure exposed to rainwater, with a flame retardant and a main flame retardant. insoluble in water.

The basic idea of the invention is to include a flame retardant in a resin impregnated heat-cured sheeting film which is water-repellent in itself and in which the flame retardant is protected from the rinsing effect of rainwater. Thanks to the invention, the fire protection agent may not be needed at all in the wood panel itself, and if used in the panel, the coating film will provide better protection against rainwater due to the coating film. When incorporated in a thin coating film, the consumption of the flame retardant remains low, even if the concentration of the substance in the coating film itself is high.

The fibrous base of the fire protection film may consist of natural fibers such as wood fibers. A preferred fiber base is kraft paper made from unbleached kraft pulp.

On the other hand, the fibrous base may contain glass fibers or synthetic fibers mixed with natural fibers such as cellulose, the proportion of which may vary from 0 to 60% by weight. Glass fibers have the particular advantage of being non-flammable, which reduces the amount of flame retardant required. The fibrous base can thus preferably be a nonwoven containing fibrous fiber and fiberglass.

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° The fire protection agent contained in the fire protection film is preferably insoluble in water or O) insoluble in T. These include organic nitrogen compounds, melamine polyphosphate, aluminum trihydroxide, magnesium trihydroxide, antimanitrioxide and expandable graphite.

Among the possible water-soluble flame retardants are boric acid and

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J 30 borates and ammonium bisphosphate, diammonium phosphate and ammonium polyphosphate? ti. When using the latter, it is preferable to render them insoluble in water by microencapsulation or resin coating.

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The heat curable resin used in the fire protection film may preferably be an amino resin, a phenolic resin, or a mixture thereof. The amount of resin is about 26-74% by weight of the flame retardant film, and the amount of flame retardant can be about 15-45% by weight of the resin.

The wood board coated with one of the fire protection films described above may be solid wood, e.g., glulam, or plywood, chipboard, fibreboard (HDF, MDF), OSB or veneer (LVL). The flame retardant film is waterproof and contains a flame retardant insoluble in water or microcapsulated insoluble in water. The wood panel itself, which is protected by a flame retardant film, may not need 10 flame retardants at all. However, if a flame retardant is included, the flame retardant may also be water soluble.

The method of fire protection of a wood panel according to the invention is characterized in that a fire protection film is formed by impregnating the fibrous base with a resin containing a water insoluble flame retardant and pre-drying the film with hot air in a fluidized bed. Im-impregnation can take place while the fibrous material web is in motion and pre-drying of the impregnated web can take place in hot air in a fluid dryer without interrupting the web movement. 1

Impregnation of the web-shaped fiber base is best accomplished by passing the web through a resin-containing vessel in a manner known per se. Other possible impregnation methods include spraying, coating or impregnation in the nip formed by the rollers. Impregnation may be one or more stages and may possibly be a combination of different impregnation methods. The flame retardant may be added to the ° 25 resin during the impregnation step, or possibly during the resin manufacturing L0.

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According to the invention, it is also possible to include a flame retardant in the fiber base prior to impregnation with the resin, wherein the flame retardant is water insoluble or microencapsulated as such, or alternatively bonded to the fiber base by a resin,

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J 30 latex, acrylic, polyvinyl alcohol (PVA), polyvinyl acetate (PVAc) or the like, a binder that prevents the flame retardant from dissolving. In order to maximize fire protection, it may be advantageous to use all of the above fire protection agent addition methods simultaneously. It is also possible to incorporate in the same flame retardant film or 4 film flame retardant wood board several different flame retardants with different mechanisms of action.

The invention will now be illustrated in greater detail by means of examples.

Example 1

The nonwoven fabric weighing 70 g / m 2 containing cellulose, glass fiber, binder and about 15% ammonium polyphosphate as a flame retardant was impregnated with phenolic resin to which was added 15% melamine polyphosphate as the flame retardant. The weight of the resulting impregnated film was 190 g / m 2. Three overlapping layers of film were applied to the substrate on 9 mm birch plywood by hot pressing at 135 ° C, 18 bar compression pressure and 8 min compression time. The fire class of uncoated plywood according to the Europalo classes (SFS EN 13501-1) was D-s2, dO. As shown, the coated plywood was subjected to the SBI fire test according to SFS EN-13823. Based on Experiment 15, the fire class of the plywood increased to B-s1, dO by coating.

Example 2

A nonwoven fabric weighing 55 g / m 2 containing cellulose, fiberglass, binder and about 20% ammonium polyphosphate as a flame retardant was impregnated with an aminoplastic resin supplemented with 15% melamine polyphosphate as a flame retardant. The weight of the impregnated film obtained was 170 g / m 2. This film was applied as a coating to a 10 mm thick fire protected adhesive board by hot pressing at 135 ° C, pressing pressure 15 bar and pressing time 7 min. The fire resistance class of the fire-resistant glued laminated hardboard according to Europalo (SFS EN o ™ 13501-1) was B-s2, dO. As shown, the coated adhesive 25 wood board was subjected to a fire test as in Example 1. On the basis of the experiment, the fire resistance of the glued wood increased to B-s1, dO by coating. In addition to fire protection, the pin-x wound film improved the surface properties of the decorative board, such as scratch resistance and cleanability, Example 3

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δ ^ 30 Absorbent kraft paper weighing 90 g / m 2 and containing about 52% cellulose and 44% filler aluminum trihydroxide was impregnated with diammonium phosphate 15% by weight of the paper. This product was further impregnated with a phenolic resin containing melamine polyphosphate as a flame retardant at 15% of the resin. The weight of the impregnated film obtained was 260 g / m 2. Three overlapping layers of film were applied as a coating to a 9 mm birch plywood substrate by hot pressing at 135 ° C, 18 bar compression pressure and 9 min compression time. The uncoated plywood had a fire resistance rating of D-s2 according to the European grades (SFS EN 13501-1). The coated plywood was subjected to a fire test as in Example 1. On the basis of the test, the fire resistance of the plywood increased to B-s1, dO.

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Claims (14)

Use of a film containing a fibrous base, a fire retardant, and 26-74% by weight of a binder resin as a heat-cured fire retardant bonded to a wood board surface in a rain-exposed structure, the fire retardant 5 being film-protected and the fire retardant substantially immersed in water. Use of a film according to claim 1, characterized in that the fiber base of the film contains natural fibers, such as wood-derived fibers. 10 Use of a film according to claim 2, characterized in that the fiber base of the film contains natural fibers mixed with glass fibers and / or synthetic fibers. Use of a film according to any one of the preceding claims, characterized in that the fibrous base of the film is paper or nonwoven. Use of a film according to any one of the preceding claims, characterized in that the flame retardant is a sparingly soluble salt or a water insoluble pigment. Use of a film according to any one of claims 1 to 4, characterized in that the flame retardant is made insoluble in water by microencapsulation or by resin coating. 25 Use of a film according to any one of the preceding claims, characterized in that the flame retardant is an organic nitrogen compound, a phosphorus compound such as g ammonium bisphosphate, diammonium phosphate, ammonium polyphosphate or melanamine polyphosphate, aluminum trihydroxide, magnesium trihydroxide, graphite. CC CL Use of a film according to any one of the preceding claims, characterized in that the binder-forming resin is an amino resin, a phenolic resin or a mixture of δ. CVJ 35 Use of a film according to one of the preceding claims, characterized in that the wood board to which the film is attached is solid wood, plywood, chipboard, fibreboard, OSB or veneer. Use of a film according to any one of the preceding claims, characterized in that the film is waterproof. Use of a film according to claim 10, characterized in that the wood board contains a water-soluble flame retardant. 10 A method for protecting a wood board by fire impregnating a fibrous base with a resin containing a water-insoluble flame retardant and performing a hot air pre-drying of the film in a fluidized bed, and applying a pre-cured film to the wood board. 13. A method for protecting a wood board fire, characterized by forming a fire protection film comprising a fiber base comprising 20 water insoluble fire protection agents, impregnating the fiber base with a resin and pre-drying the film with hot air in a fluidized bed, and Method according to Claim 12 or 13, characterized in that the wood board is solid wood, plywood, chipboard, fibreboard, OSB or 5 veneered wood. C \ J i C \ l o TT X X CL Tf CD Tj- LD O δ C \ l