巴西专利BR112013023158B1 METHOD TO PRODUCE A CONSTRUCTION PANEL

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专利摘要:
method for producing a construction panel the present invention relates to a powder mixing layer for a construction panel and a method for producing a construction panel with a decorative surface produced from a powder mixing layer with a controlled loss in healing.
公开号:BR112013023158B1
申请号:R112013023158-0
申请日:2012-04-11
公开日:2020-05-26
发明作者:Göran Ziegler；Rickard Rittinge；Hans Persson
申请人:Välinge Innovation AB；
IPC主号:

专利说明:

Descriptive Report of the Invention Patent for METHOD TO PRODUCE A CONSTRUCTION PANEL.
Technical field
[0001] The description refers generally to the field of fiber-based panels with a decorative wear-resistant surface layer, particularly construction panels and more particularly floor panels. The description refers to a construction panel with such a wear-resistant decorative surface and the production methods for such panels and a mixed / prefabricated layer for such methods and panels.
Known Techniques
[0002] Recently, new types of wood fiber floors (WFF) without paper have been developed with solid surfaces comprising a substantially homogeneous mixture of fibers, binders and wear-resistant particles. Such a new type of panel called Wood Fiber Floor (WFF) is described in W02009 / 065769, which shows both products and methods for producing such a product.
[0003] The wear resistant particles are preferably aluminum oxide particles, the binders are preferably thermally cured resins such as amino resins and the fibers are preferably wood based. Other suitable water-resistant materials are, for example, silica or silicon carbide. In most applications, decorative particles such as, for example, colored pigments are included in the homogeneous mixture. In general, all of these materials are preferably applied in dry form as a powder mixed in an HDF core and cured under heat and pressure in a 0.1 - 1.0 mm solid layer.
[0004] The powder technology is quite suitable for producing decorative solid surface layers, which are much thicker
Petition 870190135984, of 12/18/2019, p. 7/29
2/16 than conventional laminated surface layers. Such solid layers based on powders create a much higher tension in the panel when they swell or contract and balance is an issue. It is therefore difficult to produce a panel with a thick, high-quality surface, which is also stable and flat under conditions of variable humidity. In addition, pores may form in the surface layer resulting in poor stain resistance.
Summary of the invention
[0005] An objective of certain modalities of the invention is to improve the well-known Wood Fiber Floor (WFF) panels. An additional objective is to provide a product preferably having a width ratio of -0.15% to + 0.20% under test conditions according to ISO 24339: 2006 (E), and / or a vapor permeability d ' water of less than 3 g / m2 * 24 hours according to EN 12572 and / or a color change of 5 (5) according to EN438 based on a test using a permanent marker.
[0006] This can be accomplished by a powder mixing layer for the decorative surface layer of a WFF Panel with a controlled loss in curing and a method of producing a construction panel.
[0007] By curing loss in this application is a weight loss, calculated as a weight percentage of the original weight, occurring when the powder is heated to 160 ° C for 5 minutes. The weight loss corresponds to the moisture released from the powder. Under these conditions the released moisture consists of two parts. The first part is the free moisture formed from water and / or other substances having a boiling point below 160 ° C being trapped in the powder and the second part originates from the cross connection of the binder. The melanin formaldehyde resin cures at 160 ° C and the resin bonds transversely through a condensation reaction, that is, the water is
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3/16 released by the condensation reaction.
[0008] By moisture content is meant weight loss, when the powder is dehydrated under mild conditions at ambient temperatures and only free water is released into the powder, without curing the resin. [0009] If the curing loss is too low the powder mixture layer will not be completely impregnated by the binder when the binder is in a fluid state during pressing. A lower impregnation of the powder mix layer results in discoloration of the decorative surface of the WFF Panel, due to the pores close to the surface.
[00010] If the curing loss on the other hand is too high, a high amount of pores is created in the WFF Layer during pressing. The pores provide poor surface resistance to stains and increased water / vapor permeability. The increased water / steam permeability can result in an increased conjugation of the panels under test conditions according to ISO 24339: 2006 (E).
[00011] The loss in curing depends on an amount of binders in the powder mixing layer, the moisture content in the powder mixing layer, when it enters the WFF production line, is an amount of powder stabilizing fluid applied in the WFF production line. The loss in curing before pressing can be controlled by a drying process on or off the line in which the powder layer is dehydrated. Dehydration can be effected by heating, for example, IR heating, preferably in the line, dehydration in a chamber, preferably in the line, or dehydration in a controlled atmosphere, preferably outside the line.
[00012] A dehydration process stabilizes the powder in the powder mixture layer and the application of a powder stabilization fluid may not be necessary.
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4/16
[00013] If a dehydration process involves heating, the binder in the powder mixture layer can be melted and the powder is stabilized by the melted binder. In this way, a dehydration process can make the stabilizing fluid redundant.
[00014] According to a first aspect of the invention, a powder mixing layer is provided to produce a construction panel with a curing loss in the range of approximately 2.5 to approximately 7% by weight, preferably approximately 3 to approximately 6% by weight.
[00015] A powder mix layer having a cure loss in the range described above overcomes the disadvantages described above and exhibits improved stain resistance, water / vapor resistance and binder impregnation as described above.
[00016] The powder mixture layer may have a curing loss in the range of approximately 2 to approximately 7% by weight, preferably in the range of approximately 4 to approximately 6% by weight, preferably approximately 5% by weight.
[00017] The powder mixture is a substantially homogeneous mixture, which comprises in a modality wood fibers, preferably HDF, a binder, preferably a melamine resin, and wear-resistant particles, preferably a silica powder, more preferably essentially of aluminum oxide. A more preferred loss on curing is approximately 3.5% by weight to 5.5% by weight.
[00018] According to a second aspect of the invention, a method of producing a construction panel is provided. The method comprises the steps of:
- apply a layer of powder mixture on a substrate; and
- apply heat and pressure to a powder mix layer and cure the powder mix layer, with a loss of cure in the range
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5/16 of approximately 2 to approximately 7% by weight, preferably in the range of approximately 4 to approximately 6% by weight, more preferably approximately 5% by weight, thereby obtaining a layer formed by the powder mixing layer.
[00019] A preferred cure loss is approximately 2.5% by weight to approximately 7% by weight.
[00020] A powder mix layer produced according to the inventive method in which the powder mix layer has a curing loss in the range described above, overcomes the disadvantages described above and exhibits improved stain resistance, water resistance / steam and binder impregnation as described above.
[00021] In one embodiment, a powder mixture is chosen in such a way that the powder mixture already has a cure loss in the range defined above. Alternatively, the loss in curing of the powder mixture layer can be adjusted by, for example, applying a stabilizing fluid or dehydrating in order to change the moisture content of the powder mixture. The relevant time to determine the loss in curing of the powder mixture layer is the moment before the application of heat and pressure.
[00022] By adjusting the binder content and moisture content in the powder mixture, and an amount of any stabilizing fluid added, a desired loss in curing the powder mixture layer can be achieved. In addition, loss in curing can be controlled by dehydrating the mixture, thereby adjusting the moisture content.
[00023] The curing carried out by applying heat and pressure can be carried out at a high line speed and the powder layer supports the high acceleration and deceleration forces created, in short pressing cycles of approximately 20 seconds.
[00024] The powder mixture in the second aspect can be the same
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6/16 of the modalities of the first aspect. Consequently, the powder mixing layer may comprise a substantially homogeneous mixture of wood fibers and a binder, preferably a thermoset resin, more preferably melamine. The powder mixing layer may additionally comprise wear-resistant particles, preferably aluminum oxide or silica powder.
[00025] Loss on cure is measured using a gravimetric method comprising heating the powder mixture layer to 160 ° C for five minutes.
[00026] The powder mixture layer can be heated prior to pressing, preferably by heating IR, and preferably with an effect of approximately 15-25 kW / m. A preferred feed speed in the range of approximately 1-4 m / min, most preferably approximately 3 m / min at an effect of approximately 20 kw.
[00027] Preferably, the substantially homogeneous mixture is conditioned before being applied in order to obtain the desired loss in curing the powder mixture layer.
[00028] In the curing step, the applied pressure can be in the range of approximately 20 kg / cm2 to approximately 60 kg / cm2, preferably approximately 40 kg / cm2, and the pressure plate temperature can be in the range of approximately 160 to approximately 200 ° C, preferably approximately 180 ° C. Heat and pressure can be applied in the range of approximately 10 to approximately 200 seconds, preferably in the range of approximately 10-60 seconds, and as an example in approximately 40 seconds.
[00029] The powder mixing layer may comprise wood fibers and a binder, preferably a thermoset resin.
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7/16
[00030] The method may comprise the additional step of applying a stabilizing fluid, preferably water, to the powder mixture.
[00031] The method may comprise the additional step of drying the powder mix layer, preferably applying heat with an effect of approximately 15-25 kW / m and a feed speed in the range of approximately 1-4 m / min, preferably approximately 3 m / min.
[00032] The method may comprise the additional steps of fixing the powder mixture layer to the substrate, preferably applying stabilizing and dehydrating fluid with an effect of approximately 15-25 kW / m and a feed speed in the range of approximately 1-4 m / min, preferably approximately 3 m / min.
[00033] The method may comprise the additional step of adjusting the curing loss of the powder mixture layer by the application stage of the stabilizing fluid, or the drying step, or a combination thereof so that the mixture layer of powders obtain the cure loss in said range. In this way, the curing loss of the powder mixture layer can be adjusted in such a way that a curing loss in the desired range can be obtained, even if the powder mixture originally had a curing loss outside the desired range.
[00034] The powder mix layer can be applied by dispersion. The powder mixture can be applied by an application unit, preferably a dispersion unit, which forms the powder mixture layer.
[00035] The powder mixing layer can be applied as a continuous powder mixing sheet. Consequently, it is possible to produce a separate layer such as a continuous powder mixing sheet. In this embodiment, the substrate can be a press belt, a release sheet, etc. The components of the powder mixture are bonded together, but essentially uncured, in a
Petition 870190135984, of 12/18/2019, p. 13/29
8/16 separate process and on a separate production line. The separate layer can be based on the vehicle, for example, a paper or a metallic or plastic sheet, but the powder mixture can also be joined together by itself, carried out, for example, by humidification with a fluid, preferably water and dehydration. The powder mixing sheet can be stored and later applied to the core as a powder mixing layer.
[00036] The substrate can be a core, preferably a wood-based core, more preferably an HDF or MDF board.
[00037] The layer can form a decorative surface layer arranged on the core.
[00038] A third aspect of the invention is a production line comprising an application unit for applying a powder mix layer to a substrate, a pressing unit for applying heat and pressure to the powder mix layer and a carrier comprising transport units preferably with separately controllable substrate feed speeds. The production line can also comprise stabilization units and / or dehydration units. The carrier preferably comprises separate transport units in each of the production units. Separate transport units provide improved control of loss on cure, as long as the feed speed at each production unit (the application unit, stabilization unit and / or dehydration unit) can be controlled and will thus be easier to control the amount of powder applied or the degree of dehydration of the stabilization unit. In addition, the separate transport units prevent moisture / water from being transported between the production units by the carrier itself.
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9/16
[00039] In all aspects the wood fibers can be either virgin, refined and / or processed, comprising lignin and without lignin, for example α-cellulose or holocellulose fibers. A mixture of refined and unrefined fibers can also be used. It is also considered that vegetable fibers such as jute, linen, linseed, cotton, hemp, bamboo, bagasse and sisal can be used. Mineral fibers and carbon fibers can also be used.
[00040] The application unit is preferably a dispersion device. The substrate is preferably an HDF or MDF board, which is preferably provided with a balance layer.
Brief Description of Drawings
[00041] The invention will be described below in connection with the preferred modalities and in more detail with reference to the exemplary drawings attached, in which
Fig 1 illustrates a production line according to an embodiment of the invention;
Fig 2 illustrates a panel with a decorative layer according to an embodiment of the invention;
Fig 3 illustrates the relationship between moisture content and curing loss for the formulation in examples1-4 Detailed Description of Modalities
[00042] A panel 7, which is described with reference to Figures 1 and 2, comprises, according to one embodiment of the invention, a core based on wood fibers 1, an essentially homogeneous decorative surface layer (transparent or non-transparent) 2 and preferably a balance layer 8. Panel 7 is in a form formed integrally in a production line (see fig 1) in which the surface layer 2, the core 7 and the balance layer 8 are formed in the same operation of pressing 6.
[00043] Figure 2 shows the decorative surface layer and the
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10/16 core in greater detail. The surface layer comprises a mixture of substantially homogeneous fibers 14, small hard wear-resistant particles 12, 12 'and a binder 19. The fibers 14 are preferably wood fibers. Binder 19 is preferably a binder that cross-links through a condensation reaction. The binder is preferably a thermoset resin such as amino resins or phenolic resins. In one embodiment, the binder is melamine formaldehyde. The wear-resistant particles 12.12 'are preferably aluminum oxide particles. The surface layer can preferably also comprise pigment 15.
[00044] The surface layer can comprise colored pigments 15 and / or, optionally, other decorative materials or chemicals. Decorative materials include, for example, materials that can affect the design aspect (s) of the surface layer. Exemplary design materials include materials producing texture, reflectivity, shine, luminescence, transparency, etc.
[00045] In methods according to the modalities of the invention, preferably the same dispersion units 3 and pressing 6 are used as described in WO 2009/065769 or WO 2009/124704, preferably together with a pressure plate structured in the method. Each of WO 2009/065769 and WO 2009/124704 are hereby incorporated by reference in their entirety.
[00046] Fig 1 describes a production line according to an embodiment of the invention. The production line comprises an application unit 3, preferably a dispersion unit for applying / spreading a mixture of powders 2 to the core 1, for example an HDF / MDF board, which is preferably already provided with an equilibrium layer 8. They are stabilization unit 4 provided to apply a stabilization fluid and a dehydration unit 5
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11/16 to dehydrate the powder mix layer. A pressing unit 6 finally applies heat and pressure to the powder mixture layer, the core and the balance layer in order to cure the binder and thereby obtain the finished construction panel 7 with a decorative surface layer. The production line additionally comprises a conveyor (not shown) preferably comprising separate transport units so that the speed of the core 1 through the production line can be varied in the different units for example in the application unit 3, in the stabilization unit 4 or in the dehydration unit 5. A suitable conveyor is a belt or roller conveyor.
[00047] A powder formulation can, for example, comprise an essentially homogeneous powder mixture comprising
187.5 g / m2 of recycled HDF fiber with a moisture content of 5.2%, 62.5 g / m2 of aluminum oxide (ZWSK-180 ST, Treibacher Schleifmittel AG), 265.625 g / m2 of melamine formaldehyde resin ( He prefers 4865, Dynea), 62.5 g / m2 of titanium dioxide (Kronos 2190, Kronos) and 46.875 g / m2 of pigment (Heucosin G10512, Heubach).
[00048] The core of an HDF plate preferably has a moisture content of 0-6%.
[00049] The dispersion unit has a dispersion capacity of 100-1000 g / m2 with a tolerance of +/- 5% as measured using a calibration cup with an area of 100x100 mm diagonally and along the length of the plate . An amount of stabilizing fluid can vary between 0 and up to 200 g / m ² .
[00050] The dispersion unit comprises a needle belt and a dispersion roller. The dispersion roller is provided with needles in the range of approximately 30-120, preferably approximately 50-100, and most preferably approximately 70-90 needles per cm ² . The needle length is about 0.5-2.5 mm,
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12/16 preferably approximately 1-2 mm and most preferably approximately 1.5 mm. Several dispersion units machine to equalize differences in the applied powder mixture.
[00051] Furthermore, the dispersion device may be provided with a needle belt with needles having a preferred length of approximately 15-20 mm, a preferred frequency in the range of approximately 500-1000 rpm, preferably approximately 1000 rpm, and a length stroke of approximately +/- 3 mm.
[00052] The stabilization unit can stabilize using steam, nozzle spray coating, ultrasound spray coating, a stabilization sheet comprising a sheet-based material with inherent stabilizing properties or a surface covering providing the stabilizing properties.
[00053] The stabilizing fluid may comprise solvents such as non-polar solvents, polar aprotic solvents and protic polar solvents or mixtures thereof. Preferred solvents are polar protic solvents such as isopropanol, ethanol and water. Water is most preferred.
[00054] The stabilizing fluid may additionally comprise additives such as humidifying, defoaming, release agents, anti-slip agents, anti-abrasives and catalysts. Decorative effects can also be added in the form of paints, dyes and effect pigments.
[00055] In Examples 1-4 below the powder formulation was used comprising 34% by weight of recycled HDF fiber (Valinge Innovation Sweden), 10% by weight of aluminum oxide (ZWSK 180-ST, Treibacher Schleifmittel AG), 50 % by weight of melamine formaldehyde resin (Prefer 4865, Dynea), 2% by weight of titanium dioxide (Kronos 2190, Kronos) and 4% by weight of pigment (G 6555 N,
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13/16
Heubach GmbH).
[00056] The relationship between weight loss in the cure and the free moisture content, that is, excluding the water released in the cure of the melamine resin, in the powders used in the examples, is shown in fig 3.
[00057] Depending on the loss in curing of the mixture of powders applied to the substrate, a stabilizing fluid can be applied and / or dehydration can be carried out. If the loss in curing of the powder mixture applied to the substrate is within the range described above, no stabilizing fluid should be added and no dehydration should be carried out. If the curing loss of the powder mixture applied to the substrate is outside the range described above, a stabilizing fluid must be added, or dehydration must be carried out, depending on whether the curing loss is too low or too high in order to obtain a mixture of powders having the desired loss on curing before applying heat and pressure.
[00058] Even if the loss in curing of the applied powder mixture is within the range described above, it may be desired to apply a stabilizing fluid in order to stabilize the powder layer. In order to adjust the loss in curing of the powder mixture layer, subsequent dehydration may be required.
[00059] Alternatively, the binder content of the powder can also be adjusted in order to obtain the desired loss in the curing of the powder mixture layer.
[00060] Example 1: Powder-based product obtained by heat compression of an incorrectly treated powder, comparative example; no dehydration and a water stabilizing fluid (20g / m2)
[00061] A powder-based product comprising an HDF core with a thickness of 9.7 mm, a balancing paper of 550 g / m2 of a scattered powder layer and 20 g / m2 stabilizing fluidPetition 870190135984, of 12/18/20 2019, p. 19/29
14/16 tion, giving a cure loss of 8% by weight, was pressed in a short cycle press using a force of 40 kg / cm2 for 37 seconds at a surface temperature in the upper pressure plate of 184 ° C and a surface temperature in the lower pressure plate of 180 ° C. The pressure plate was a granite structure plate.
[00062] The resulting product was:
• a construction panel with a solid surface having an outer hollow width of -0.15% at + 0.2 ° The plate installed in accordance with ISO 24339: 2006 (E). Typical values obtained are 0.26% to + 0.29%.
• stamp 3 (5) according to EN438 based on a test using a permanent marker • water vapor permeability in excess of 5.3 g / m2 * 24 hours according to EN 12572
[00063] Example 2: Powder-based product obtained by heat compression of a treated powder, preferred example, dehydration and a water stabilizing fluid (20g / m2)
[00064] A powder-based product comprising an HDF core with a thickness of 9.7 mm, a balancing paper and 550 g / m2 of a scattered powder layer and 20 g / m2 of stabilizing fluid was pressed in a short cycle press using a force of 40 kg / cm2 for 37 seconds at a surface temperature on the upper pressure plate of 184 ° C and a surface temperature on the lower pressure plate of 180 ° C. The pressure plate has a granite structure. Before pressing the powder was treated by an IR dehydration with an effect of 19 kW / m and a feeding speed of 2.7 m / min in order to obtain a curing loss of 4.6% by weight as measured using a gravimetric method comprising heating the treated powder to 160 ° C for five minutes.
[00065] The resulting product was:
Petition 870190135984, of 12/18/2019, p. 20/29
15/16 • a solid surface having a hollow width within -0.15% to +0.2% plate installed according to ISO 24339: 2006 (E), typical values obtained are -0.07% at +0 , 17%.
• dyeing 5 (5) according to EN438 based on a test using a permanent marker • water vapor permeability less than 1.1 g / m2 * 24 hours according to EN 12572.
[00066] Example 3: Product based on powder obtained by heat compression of an incorrectly treated powder, comparative example, stabilization fluid and dryness.
[00067] A powder-based product comprising a 9.7 mm HDF core, a balancing paper and 550 g / m2 of a powder layer spread with 20 g / m2 of stabilizing fluid, was pressed in a cycle press. short using a force of 40 kg / cm ² for 37 seconds at a surface temperature on the upper pressure plate of 184 ° C and a surface temperature on the lower pressure plate of 180 ° C. The pressure plate has a granite structure. Before pressing the powder was treated by an IR dehydration process with an effect of 19 kW / m and a feed speed of 1.5 m / min in order to obtain a curing loss of 2.5% by weight as measured using a gravimetric method comprising heating the treated powder to 160 ° C for five minutes.
[00068] The resulting product was:
• a construction panel with a solid surface having an interior hollow width -0.15% to + 0.2% on the plate installed according to ISO 24339: 2006 (E) • dyeing 3 (5) according to EN438 based in a test using a permanent marker • water vapor permeability of 2.5 g / m2 * 24 hours according to EN 12572
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16/16 • Discolored decorative surface due to pores close to the surface.
[00069] Example 4: Powder-based product obtained by heat compression of a treated powder, preferred example, dehydration and without water stabilizing fluid.
[00070] A powder-based product comprising an HDF core with a thickness of 9.7 mm, a balancing paper and 550 g / m2 of a scattered powder layer, with a 5.3% curing loss before dehydration, was pressed into a short cycle press using a force of 40 kg / cm2 for 37 seconds at a surface temperature on the upper pressure plate of 184 ° C and a surface temperature on the lower pressure plate of 180 ° C. The pressure plate has a granite structure. Before pressing the powder was treated by an IR dehydration with an effect of 19 kW / m and a feeding speed of 2.7 m / min in order to obtain a cure loss of 3.7% by weight as measured using a gravimetric method comprising heat the treaty to 160 ° C for five minutes.
[00071] The resulting product was:
• A solid surface having a concave width within -0.15% to + 0.2% on the plate installed in accordance with ISO 24339: 2006 (E), typical values obtained are -0.05% at +0.20 %.
• stain compliance 5 (5) according to EN438 based on a test using a permanent marker • water vapor permeability less than 1.9 g / m2 * 24 hours according to EN 12572.

权利要求:
Claims (10)
[1]
1. Method for producing a construction panel (7) characterized by the fact that it comprises the steps of:
- applying a powder mixing layer to a substrate, wherein the powder mixing layer comprises wood fibers (14) and a binder (19); and
- applying heat and pressure to the powder mixture layer when disposed on the substrate and curing the powder mixture layer having a curing loss in the range of approximately 2 to approximately 7% by weight, preferably in the range of approximately 4 to approximately 6 % by weight, more preferably approximately 5% by weight, and thereby obtaining a layer formed by the powder mixture layer.
[2]
2. Method according to claim 1, characterized by the fact that the binder (19) is a thermoset resin.
[3]
Method according to claim 1 or 2, characterized in that it comprises the additional step of applying a stabilizing fluid, preferably water, to the powder mixing layer.
[4]
Method according to any one of claims 1 to 3, characterized in that it comprises the additional step of drying the powder mixture layer, preferably applying heat with an effect of approximately 15-25 kW / m and a feed speed in the range of approximately 1-4 m / min, preferably approximately 3 m / min.
[5]
5. Method according to any of the claims
1 to 4, characterized by the fact that it comprises the additional steps of fixing the powder mixture layer to the substrate, preferably applying stabilizing and dehydrating fluid with an effect of approximately 15-25 kW / m and a feed speed at
Petition 870190135984, of 12/18/2019, p. 23/29
2/2 range of approximately 1-4 m / min, preferably approximately 3 m / min.
[6]
Method according to any one of claims 1 to 5, characterized in that it additionally comprises adjusting the loss in curing of the powder mixture layer by the stabilization fluid application step, or the drying step, or a combination of them so that the powder mixture layer obtains the curing loss in said strip.
[7]
Method according to any one of claims 1 to 6, characterized in that the powder mixture layer is applied by dispersion.
[8]
Method according to any one of claims 1 to 7, characterized in that the powder mixing layer is applied as a continuous powder mixing sheet.
[9]
Method according to any one of claims 1 to 8, characterized in that the substrate is a core (1), preferably a wood-based core, more preferably an HDF or MDF board.
[10]
Method according to claim 9, characterized in that the layer forms a decorative surface layer (2) arranged in the core (1).

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同族专利:

公开号 | 公开日

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ES2617490T3|2017-06-19|

EP2697065B1|2016-12-07|

RU2595712C2|2016-08-27|

US20120263878A1|2012-10-18|

AU2012243456A1|2013-10-17|

ZA201307462B|2015-01-28|

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EP2697065A4|2015-09-30|

AU2012243456B2|2016-01-07|

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