EP3838586A1 - Panel formed by a combination of thermosetting and/or thermostable melamine resin and/or films with woven and nonwoven fabrics with natural, synthetic, polymer and/or mineral fibres - Google Patents

Abstract

The present invention relates to a panel assembly structured by a combination of thermosetting and / or thermostable melamine resins with woven and non-woven fabrics with natural, synthetic, polymer and / or mineral fibers. In particular, the invention relates to a panel assembly which comprises thermosetting resin films and / or backing melamine films in combination with core sheets from synthetic fabrics of palyaxyethylene oxy-terephthaloyl polymer composed of yarns to very high tenacity in braided weaving and synthetic fabrics of polyoxyethylene oxy-terephthaloyl polymers with threads of medium hardness in flat weaving, impregnated with adhesive polymer films and / or liquid melamine resin or in Overlay type films, so as to allow the manufacture of panels of one or more layers, in presses with very high pressure pressing, resulting in improved mechanical characteristics and applications in which the use of high toxicity materials based on phenolic resins is eliminated.

Description

OBJECT OF THE INVENTION.

The present invention relates to a panel assembly structured by a combination of resin and / or film of: melamine, polyurethane (PU), acrylic, polyethylene / metallocene (PE / metallocene), polyester, epoxy or acrylonitrile butadiene styrene (ABS), with woven and non-woven fabrics with natural, synthetic, polymer and / or mineral fibers. This set consists of combinations of resin laminates, includes in combination of melamine resin laminates, alone and / or combined with other resin (s) in liquid form or in film (film) to bond with or without decorative paper in combination with woven and non-woven fabrics with natural, synthetic, polymer and mineral fibers, the temperature resistance of which is greater than the temperature of the polymerization or curing of these resins, pressed on an apparatus for the manufacture of HPL laminate considering the heating and cooling cycles (Hot / Cooled).

The present invention aims to provide a solution to the present health risks represented by the use of phenolic resins in the manufacture of structural panels. The need of the present invention is to provide structural panels which replace the use of phenolic resins which exhibit characteristics toxic to humans. Instead, the melamine resin according to the present invention has low health toxicity. The present invention neutralizes melamine by encapsulation which occurs by vitrifying it through the melamine resin curing process in the hot-cold (HPL) lamination press (HPL) pressing process. . From the panel of the present invention it is possible to construct panels of high strength for their use in the manufacture of composite panels for ballistic protection (steel and / or ceramic composites) and of medium strength for their use on structural panels with resistance to blows and shocks.

Therefore, the objective of the present invention, an object of the present invention is to provide a panel assembly structured by a combination of resin and / or film of: melamine - polyurethane (PU) - acrylic - polyethylene / metallocene (PE / metallocene) - polyester - epoxy - acrylonitrile butadiene styrene (ABS), with woven and non-woven fabrics.

The present invention provides a solution to the requirements of health protection and environmental friendliness, further providing other advantages associated with the manufacturing process, which meets these needs and provides other related advantages.

FIELD OF THE INVENTION.

The present invention refers to a panel assembly structured by a combination of resin and / or film of: melamine - polyurethane (PU) - acrylic - polyethylene / metallocene (PE / metallocene) - polyester - epoxy - acrylonitrile butadiene styrene (ABS), with woven and non-woven fabrics by pressing in a hot-cold (HPL) lamination press.

In particular and in detail, it refers to an assembly of the panel which comprises a combination of resin and / or film of: melamine - polyurethane (PU) - acrylic - polyethylene / metallocene (PE / metallocene) - polyester - epoxy - acrylonitrile butadiene styrene (ABS) which is placed between each layer of synthetic polymer fabrics composed of very high tenacity yarns in flat braided weaving and synthetic polymer fabrics with medium tenacity yarns in flat weaving, impregnated with liquid melamine resin or glued with the film melamine of: melamine - polyurethane (PU) - acrylic - polyethylene / metallocene (PE / metallocene) - polyester - epoxy - acrylonitrile butadiene styrene (ABS). Each resin will be used alone and / or combined according to the specifications required to obtain the elastic and mechanical behavior corresponding to each specific application, so as to allow the manufacture of a wide variety of panels with one or more layers, on presses ( HPL - CPL - MPL - LPL), obtaining improved mechanical characteristics and applications, by means of the permanent modification which is obtained by the encapsulation of the components of the present invention, which eliminate the use of products with high toxicity such as phenols in combination with formaldehyde.

The present invention is applicable in the manufacture of high and medium strength panels, to produce ballistic resistance elements with / without decorative coatings and to manufacture tear, impact and impact resistance panels with / without decorative coatings.

Among other advantages, the present invention can be used generally in the manufacture of products with extensive structural properties, generally increasing safety for industrial use in construction and in other applications.

It may also be applicable in general to the manufacture or production of personal security elements as well as in the construction industry among others.

BACKGROUND OF THE INVENTION.

Phenolic resins are widely used in current processes for the manufacture of decorative laminate (HPL) and compact panels and the art normally involves the use of phenolic resins. Formaldehyde can cause cancer and repeated or prolonged exposure to formaldehyde generates skin sensitization, dermatitis or multiple other allergic reactions. The formaldehyde is classified by the "International Agency for Research on Cancer (IARC) ", as a possible human carcinogen (Group 2A). The Occupational Safety and Health Administration ( OSHA) regulates formaldehyde as a potential carcinogen at exposure of 0.5 ppm or greater. Phenol can cause damage to the liver, kidneys, bladder as well as heart damage. Pre-existing heart or circulatory problems may be made worse by exposure. This material has not been listed by the NTP (National Institute of Safety and Hygiene) and the IARC (INTERNATIONAL AGENCY FOR RESEARCH ON CANCER) (International Agency for Research on Cancer) classified it as carcinogenic ( A4).

On the other hand, melamine resin, is a hard thermosetting material, made by condensation of melamine and formaldehyde. In its butylated form, the latter dissolves into n-butanol and xylene. There are a plurality of types, which vary between very slow curing resins and very fast curing resins. It was initially discovered by William F. Talbot. Both urea-formaldehyde and melamine-formaldehyde have very similar general properties, although there is a huge difference in their applications. Both resins are known as amine resins or amine resins. Amino resins are mainly used as adhesives to make chipboard and plywood, used in residential construction, furniture making (decorative laminates).

Melamine is an organic compound that has the chemical formula C ₃ H ₆ N ₆ , and whose name by the International Union of Pure and Applied Chemistry, IUPAC, is 2,4,6-triamino-1,3,5 -triazine. It is slightly soluble in water, and naturally forms a white solid.

DESCRIPTION OF THE INVENTION.

The present invention relates to an assembly of testers for substances encapsulated by a barrier to prevent migration.

This assembly comprises at least one tester for the arrangement in journals and the like of samples of solid, semi-solid and liquid substances such as cosmetics, perfumes and the like which comprises at least one sample of the substance on a backing film. where the sample is peripherally encapsulated and is limited within the area traced by a barrier line to prevent migration out of the tester.

Further, the tester assembly includes a coating film which comprises a superimposed sheet which has the shape of the transparent or translucent carrier film and which further has an opening fin where said superimposed coating film is adhered to the line. barrier and therefore encapsulates the sample in assembly with the support film, so that the peripheral barrier line also fulfills the function of a release adhesive.

In order to hold the coating film on the backing film, an end opposite the opening fin includes a fixed adhesion adhesive bonding between the films forming an opening hinge to ensure that the coating film does not collapse. not move relative to the support film and therefore the barrier line maintains its position and efficiency.

According to the present invention the lower toxicity characteristics of melamine are completely neutralized by pressing crystallization with woven and non-woven layers.

DESCRIPTION OF THE FIGURES.

• La Figure 1 illustre une coupe d'une première variante du panneau qui comprend des pellicule(s) (overlay) de mélamine et/ou pellicule(s) de PE/Métallocène ou pellicule(s) de polyuréthane PU ou pellicule(s) Acrylique ou pellicule(s) PET ou ABS, conformément à la présente invention.
• La Figure 2 illustre une coupe d'une deuxième variante du panneau qui comprend des polymères avec des résines de mélamine selon la présente invention.
• La Figure 3 illustre un schéma de pénétration d'un projectile, lors d'un test balistique, sur un panneau élaboré conformément à la présente invention.

To further clarify the invention and its advantages compared with the known prior art, the possible embodiments, illustrative and not limiting, of the application of said principles are described below with the aid of the accompanying drawings.

• The Figure 1 illustrates a section of a first variant of the panel which comprises melamine overlay and / or melamine film (s) PE / Metallocene or polyurethane film (s) PU or acrylic film (s) or PET or ABS film (s), in accordance with the present invention.
• The Figure 2 illustrates a section of a second variation of the panel which comprises polymers with melamine resins according to the present invention.
• The Figure 3 illustrates a diagram of the penetration of a projectile, during a ballistic test, on a panel made in accordance with the present invention.

PREFERRED EMBODIMENT OF THE INVENTION.

The present invention relates to a panel assembly structured by a combination of melamine resin, film of: melamine - polyurethane (PU) - acrylic - polyethylene / metallocene (PE / metallocene) - polyester - epoxy - acrylonitrile butadiene styrene (ABS), with woven and non-woven fabrics with natural, synthetic, polymer and / or mineral fibers.

According to the present invention, the assembly comprises in combination of laminates of melamine resin, film of: melamine - polyurethane (PU) - acrylic - polyethylene / metallocene (PE / metallocene) - polyester - epoxy - acrylonitrile butadiene styrene (ABS) - with woven and non-woven fabrics.

In a variant of the invention, the combination of melamine resin, film of: melamine - polyurethane (PU) - acrylic - polyethylene / metallocene (PE / metallocene) - polyester - epoxy - acrylonitrile butadiene styrene (ABS), is made with synthetic fabrics of polymers based on polyoxyethylene oxy-terephthaloyl composed of high tenacity yarns with a braided weave. Based on the figure 1 , in a preferred variant, the panel 1 is formed from layers of melamine resin or a film of: melamine - polyurethane (PU) - acrylic - polyethylene / metallocene (PE / metallocene) - polyester - epoxy - acrylonitrile butadiene styrene (ABS) , and which contain structural and decorative layers. It is possible to have between said layers decorative layers from plastic layers or acrylics which have several colors and textures which impart a desired aesthetic characteristic to the final panel. Adjacent to the decorative layer 3, are included core resistance layers in which at least one synthetic fabric 4 such as polymers based on polyoxyethylene oxy-terephthaloyl composed of high tenacity yarns with a very tight braided weave (Braided plain). The amount of layers depends on the level of ballistic protection. To construct the fabric panel according to the present invention, a thermosetting or thermoplastic film such as a polyurethane, acrylic, melamine, polyurethane (PU), polyethylene terephthalate (PET) or acrylonitrile butadiene styrene (ABS) film is placed between the layers. depending on the stiffness or flexibility that the finished panel requires.

On the other hand, it is possible to install on one or both external faces a plastic or decorative paper also depending on the rigidity and flexibility required and on the basis of the destination of the panel.

The pressing process comprises thermoplastic films (thermosetting and / or thermostable) in connection by hot pressing with initial pressures between 10 and 15 kg / cm ² and when the panel reaches the melting temperature, the minimum pressure will be between 110 to 200 kg / cm ^{2 in} order to make the molten thermosetting resin flow through the meshes of each layer of fabric that makes up the panel. Melamine films only catch and stick to fabrics in the curing process.

Once the maximum pressure is reached, the steam inlet is cut off and the cooling process is started with tempered water to harden the resin and not to cause thermal shock on the press plates.

When using a thermosetting (Ex. Polyethylene / Metallocene (Melamine ) film to join the layers of fabrics, the pressure can be directly increased to the maximum.

The press can be opened at a temperature between 60 ° and 65 ° C and the panel will be configured.

For the effective joining of the layers together by pressing, alternately on the basis of the figure 2 it is possible to use bonding adhesives 5 between the layers of polymers 4 based on polyoxyethylene oxy-terephthaloyl composed of high tenacity yarns with a braided weave and to press with HPL presses between the melamine resins 1, with pressures from 90 kg / cm ² to hardening melting temperatures between 130 ° and 180 ° C, depending on the type of material and the amount of layers included. A ballistic protection panel can comprise up to 200 layers of polyoxyethylene oxy-terephthaloyl polymer composed of high tenacity yarns with the resin chosen according to the desired mechanical characteristics.

The optimization of the ballistic resistance according to the present invention has been optimized on a polymer textile 4 with braided 1000 denier type yarns, of 100 N of minimum ultimate strength and 45 X 45 threads per inch (2.54 cm). Panels made with 1000 denier polymer yarns braided in a 3: 1 format were also tested to form 3000 d and 23 x 23 yarns per inch (2.54 cm). According to the present invention, for adequate bonding of these types of yarns with melamine resins 1, a thermoplastic film formulation has been developed as an adhesive 5 based on a combination formulation of modified low density polyethylene (MLDPE) in combination with high density polyethylene (HDPE) and C8 Octane or metallocene. At low pressure at the start of the pressing process, between 10 to 15 kg / cm ² is sufficient to increase the temperature of the panel until reaching the melting temperature of the thermoplastic film as adhesive. When the film is molten, the pressure is increased, and could increase up to 110 kg / cm ² minimum. This last pressure will cause the molten adhesive to flow between the very tight mesh of fabric and the glue of the upper or lower films will be fused together to form a solid whole.

Thus, with a 1000 denier fabric, there are 45 × 45 threads per inch (2.54 cm) = 17.7 threads / ½ cm ² which corresponds to 1770 N of puncture resistance per layer.

The prior art provides an average of 31 X 31 threads per inch (2.54 cm) for weaving its aramid fiber fabrics.

With a 3000 denier fabric according to the present invention of 23 X 23 threads per inch (2.54 cm) = 9.05 threads / ½ cm ² which corresponds to 2945 N of puncture resistance per layer, while art prior discloses 17 X 17 threads per inch to weave its aramid fiber fabrics.

Although the panel according to the present invention is 2 times less resistant than aramid fibers, the inventor was able to obtain 50% more braided yarns (twisted) per ½ cm ² , given that it is important to have a maximum of threads braided on a very small area to stop a bullet, and 5 to 6 times more elongation, so that the bullet is not stopped by the simple resistance of the threads of the fabric in contact with the projectile, but that this is compensated by the elongation of the fabric at the point of impact.

In the cooling process, the bond will be solidified, which will provide a very compact panel with high elongation capacity to better contain the projectiles within the ballistic panels.

The figure 3 illustrates the penetration of an FSP fragment in simulation to stop the fragments of a DM31 mine within a panel produced according to the present invention. The height of the panel is 24 mm and the penetration reaches up to 67% of the thickness (Approx. 16 mm). The panel of the figure 3 is obtained from 90 layers of polyoxyethylene oxy-terephthaloyl polymer composed of high tenacity threads between the melamine films (Overlays) and Modified Low Density Polyethylene (MLPDE) films in combination with High Density Polyethylene (HDPE) and C8 Octane or Metallocene.

1. i. en maintenant une capacité d'allongement des fibres; en outre, lorsque le panneau est pressé à haute pression (HPL) pour être très compact, on obtient ainsi une bonne résistance au feu. Il sera également possible, en un seul pressage, d'insérer un papier décoratif sur un ou les deux côtés du panneau balistique; objet non connu de la technique et qui inclut l'utilisation de fibres supplémentaires d'aramides, fibres minérales, polypropylène, UHMWPE, nylon, polyester, polycarbonate, céramique, etc.
2. ii. Fabrication de laminés et de panneaux compacts pour des guichets, avec des tissus polymères polyoxyéthylène oxy-téréphtaloyle en combinaison avec une résine de mélamine et des films décoratifs sur un et/ou les deux côtés pour remplacer les panneaux élaborés à partir de papier Kraft en combinaison avec une résine phénolique (Papier Kraft/Phénolique), à différentes pressions.

Other embodiments of the present invention include synthetic fabrics of polymers with medium tenacity yarns, flat woven, impregnated with liquid melamine resin and bonded with a melamine film overlay. This configuration makes it possible to manufacture single-layer and / or multi-layer panels, on high pressure HPL laminating presses, obtaining mechanical characteristics and applications such as:
Manufacture of ballistic panels with polyoxyethylene oxy-terephthaloyl polymer fabrics with melamine resin and modified low density polyethylene (MLPDE) films in combination with high density polyethylene (HDPE) and C8 Octane or metallocene:

1. i. maintaining a fiber elongation capacity; furthermore, when the panel is pressed at high pressure (HPL) to be very compact, thus good fire resistance is obtained. It will also be possible, in a single pressing, to insert a decorative paper on one or both sides of the ballistic panel; object not known in the art and which includes the use of additional fibers of aramid, mineral fibers, polypropylene, UHMWPE, nylon, polyester, polycarbonate, ceramic, etc.
2. ii. Manufacture of laminates and compact panels for counters, with polyoxyethylene oxy-terephthaloyl polymer fabrics in combination with melamine resin and decorative films on one and / or both sides to replace panels made from Kraft paper in combination with a phenolic resin (Kraft / Phenolic paper), at different pressures.

The decorative high pressure laminate (HPL) made with polyoxyethylene oxy-terephthaloyl polymer fabric and melamine resins will also be more flexible and is in comparison 6 to 10 times more resistant to tension and fracture than Kraft paper.

Compared to the art technique, if one compares panels of the same strength, of melamine resin with panels made from Kraft / phenolic paper by means of the assembly of the present invention, the compact panel with polymer fabrics polyoxyethylene oxy-terephthaloyl in combination with melamine resins will be thinner due to the fact that it requires fewer layers to generate the same strength, so it will also be lighter and practically unbreakable, compared to a compact panel made of paper Kraft / Phenolic.

Therefore, according to the present invention, panels constructed from Kraft / Phenolic paper are replaced by panels made from polymer / melamine fabric.

This process also aims to replace the highly toxic Kraft / phenolic paper with the use of melamine resin of very low health toxicity, completely neutralized by the vitrification of melamine resin in the pressing process. To this end, it should be taken into account that the new European Union directives are studying how to reduce the use of phenol-formaldehyde-based resin due to its high toxicity, in the process for manufacturing the resin and impregnating the support for paper, fabric, etc.

The present invention, with the inclusion of melamine resin for gluing with / without decorative paper, applies to all types of woven and non-woven fabrics with natural, synthetic, polymer and mineral fibers, whose temperature resistance is higher than the temperature of polymerization or curing of melamine resin, pressed in a high pressure lamination press (HPL).
Thus, the panel assembly then comprises:
outer coating layers (1) of melamine resin which comprises a front layer and a rear layer which cover the panel;
core layers (4) disposed inside the panel which comprise woven and non-woven fabrics with natural, synthetic, polymer and / or mineral fibers; and,
in conjunction with a thermoplastic film of adhesive (5) formed from the combination of modified low density polyethylene (MLDPE) with high density polyethylene (HDPE) and C8 Octane or metallocene.

1. (i) une première étape de pressage de couches de revêtement extérieur (1) de résine de mélamine qui comprend une couche antérieure et une couche postérieure qui couvrent le panneau; des couches noyaux (4) disposées à l'intérieur du panneau qui comprennent des tissus tissés et non tissés avec des fibres naturelles, synthétiques, polymères et/ou minérales; en liaison par pressage avec des presses de laminage à haute pression HPL avec une pellicule thermoplastique d'adhésif (5) formé à partir de la combinaison de polyéthylène à faible densité modifié (MLDPE) avec du polyéthylène à haute densité (HDPE) et de l'Octane C8 ou du métallocène; et, dans laquelle la lamination par pression varie de 10 à 15 kg/cm² à des températures de fusion de durcissement comprises entre 130° et 145 °C; selon le point de fusion de cette pellicule.
2. (ii) une deuxième étape de fusion qui comprend l'augmentation de pression jusqu'à 110 kg/cm² minimum pour former un flux de pellicule thermoplastique d'adhésif (5) en fusion entre les mailles très serrées de textile entre les pellicules supérieures et inférieures formant un ensemble solide; et
3. (iii) une troisième étape de refroidissement, pendant laquelle la pellicule thermoplastique d'adhésif (5) sera solidifiée.

Likewise, the method of forming the panel assembly includes:

1. (i) a first step of pressing outer coating layers (1) of melamine resin which comprises an anterior layer and a posterior layer which cover the panel; core layers (4) disposed inside the panel which comprise woven and non-woven fabrics with natural, synthetic, polymer and / or mineral fibers; in bonding with HPL high pressure laminating presses with a thermoplastic film of adhesive (5) formed from the combination of modified low density polyethylene (MLDPE) with high density polyethylene (HDPE) and l 'Octane C8 or metallocene; and, wherein the pressure lamination ranges from 10 to 15 kg / cm ² at cure melt temperatures between 130 ° and 145 ° C; depending on the melting point of this film.
2. (ii) a second melting step which comprises increasing the pressure to a ^{minimum of 110 kg / cm 2} to form a flow of thermoplastic film of adhesive (5) in fusion between the very tight meshes of textile between the upper films and lower forming a solid whole; and
3. (iii) a third cooling step, during which the thermoplastic film of adhesive (5) will be solidified.

• EXEMPLE 1. Des résines de mélamine combinées avec des tissus de fibres naturelles d'origine végétale telles que le coton, le lin, la jute, le Kapok <soie de coton>, le bambou, la fibre d'ortie < Urtica Doica>, la fibre de cyprès Hinoki <Chamaecyparis obtusa> et similaires ou leurs combinaisons.
• EXEMPLE 2. Des résines de mélamine combinées avec des tissus de fibres animales telles que la laine, la soie et similaires ou leurs combinaisons.
• EXEMPLE 3. Des résines de mélamine combinées avec des tissus de fibres synthétiques régénérées comme la cellulose, la rayonne, l'acétate, le triacétate et similaires ou leurs combinaisons.
• EXEMPLE 4. Des résines de mélamine combinées avec des tissus de fibres synthétiques et polymères comme le nylon, le polyester, l'élasthanne, l'acrylique, les Para-aramides et les Méta-aramides, les fibres PBO (p-phénylène benzobisoxazol), les fibres de carbone, le polypropylène et similaires ou leurs combinaisons.
• EXEMPLE 5. Des résines de mélamine combinées avec des tissus de fibres minérales, fibre de verre, céramique et graphite entre autres.

Other examples of combinations according to the present invention may include:

• EXAMPLE 1. Melamine resins combined with fabrics of natural fibers of plant origin such as cotton, linen, jute, Kapok <cotton silk>, bamboo, nettle fiber < Urtica Doica>, Hinoki cypress fiber <Chamaecyparis obtusa > and the like or combinations thereof.
• EXAMPLE 2. Melamine resins combined with fabrics of animal fibers such as wool, silk and the like or their combinations.
• EXAMPLE 3. Melamine resins combined with regenerated synthetic fiber fabrics such as cellulose, rayon, acetate, triacetate and the like or combinations thereof.
• EXAMPLE 4. Melamine resins combined with fabrics of synthetic fibers and polymers such as nylon, polyester, elastane, acrylic, Para-aramids and Meta-aramids, PBO fibers (p-phenylene benzobisoxazol) , carbon fibers, polypropylene and the like or combinations thereof.
• EXAMPLE 5. Melamine resins combined with fabrics of mineral fibers, fiberglass, ceramic and graphite among others.

According to the invention, the fabrics can be combined with steel plates and / or ceramic modules AL ₂ O ₃ - SiC - B ₄ C and decorative elements.

Again according to the present invention, different configurations are possible according to needs to obtain a single-layer or multi-layer panel depending on the application.

A last discovery of the inventor, is that in the formation of the multilayer panel, the thickness can be determined according to the climate and the hot parts of a vehicle, so that by adding it on the outside of the body of a vehicle, its detection with a thermal camera (FLIR) is practically impossible because the panel of the invention does not allow the heat of the vehicle to pass.

The panel is also resistant to stop fragments of mines of type DM31 according to the NATO standard within the framework of STANAG 4569. According to the invention, the panel comprises a melamine film in combination with PE / Metallocene and is finally closed with a melamine wrap.

It was also discovered in studies carried out in the laboratory of the inventor, that UHMWPE ultra high molecular weight polyethylene fibers are not suitable for the manufacture of the panel of the present invention, due to their low melting point. , incompatible with the combined pressing process of coatings and adhesive with melamine overlays.

1. i. PELLICULE MÉLAMINE
   PTX ou PTZ
   ACRYLIQUE DÉCORATIF
2. ii. PU
   PTX ou PTZ
   ACRYLIQUE DÉCORATIF
3. iii. PS
   PTX ou PTZ
   ACRYLIQUE DÉCORATIF
4. iv. ACRYLIQUE DÉCORATIF
   PTX ou PTZ
   ACRYLIQUE DÉCORATIF
5. v. ACRYLIQUE DÉCORATIF
   PTX ou PTZ
   PLASTIQUE DÉCORATIF
6. vi. PELLICULE MÉLAMINE
   PTX ou PTZ
   PLASTIQUE DÉCORATIF
7. vii. PU
   PTX ou PTZ
   PLASTIQUE DÉCORATIF
8. viii. PS
   PTX ou PTZ
   PLASTIQUE DÉCORATIF
9. ix. PELLICULE MÉLAMINE
   PTX ou PTZ
   MÉLAMINE DÉCORA TIF
10. x. PU
    PTX ou PTZ
    MÉLAMINE DÉCORA TIF
11. xi. PS
    PTX ou PTZ
    MÉLAMINE DÉCORA TIF
12. xii. ACRYLIQUE DÉCORATIF
    PTX ou PTZ
    PU
    PTX ou PTZ
    PU
    PTX ou PTZ
    PLASTIQUE DÉCORATIF
13. xiii. ACRYLIQUE DÉCORATIF
    PTX ou PTZ
    PS
    PTX ou PTZ
    PS
    PTX ou PTZ
    PLASTIQUE DÉCORATIF
14. xiv. PELLICULE MÉLAMINE
    PLASTIQUE DÉCORATIF
    PTX ou PTZ
    PU ou ACRYLIQUE ou PET
15. xv. PU ou ACRYLIQUE ou PET
    ACRYLIQUE DÉCORATIF
    PTX ou PTZ
    PELLICULE MÉLAMINE
16. xvi. PELLICULE MÉLAMINE
    MÉLAMINE DÉCORA TIF
    PTX ou PTZ
    PELLICULE MÉLAMINE
17. xvii. PELLICULE MÉLAMINE
    PLASTIQUE DÉCORATIF
    PTX ou PTZ
    PELLICULE MÉLAMINE
18. xviii. PU ou ACRYLIQUE ou PET
    PLASTIQUE DÉCORATIF
    PTX ou PTZ
    PU ou ACRYLIQUE ou PET
19. xix. PELLICULE MÉLAMINE
    ACRYLIQUE DÉCORATIF
    PTX ou PTZ
    PELLICULE MÉLAMINE
20. xx. ACRYLIQUE
    PTX ou PTZ
    ACRYLIQUE
    PTX ou PTZ
    ACRYLIQUE
    PTX ou PTZ
    ACRYLIQUE
21. xxi. PET
    PTX ou PTZ
    PET
    PTX ou PTZ
    PET
    PTX ou PTZ
    PET
22. xxii. PELLICULE MÉMAMINE
    PTX ou PTZ
    PELLICULE MÉLAMINE
    PTX ou PTZ
    PELLICULE MÉLAMINE
    PTX ou PTZ
    PELLICULE MÉLAMINE
23. xxiii. PU
    PTX ou PTZ
    PU
    PTX ou PTZ
    PU
    PTX ou PTZ
    PU
24. xxiv. PU ou ACRYLIQUE ou PET
    ACRYLIQUE DÉCORATIF
    PTX ou PTZ
    PU ou ACRYLIQUE ou PET
25. xxv. ACRYLIQUE DÉCORATIF
    PTX ou PTZ
    PELLICULE MÉLAMINE
26. xxvi. PELLICULE MÉLAMINE
    ACRYLIQUE DÉCORATIF
    PTX ou PTZ
    PU ou ACRYLIQUE ou PET
27. xxvii. ACRYLIQUE DÉCORATIF
    PTX ou PTZ
    ACRYLIQUE DÉCORATIF

In other variants of the invention, the present invention can comprise combinations such as:

1. i. MELAMINE FILM
   PTX or PTZ
   DECORATIVE ACRYLIC
2. ii. COULD
   PTX or PTZ
   DECORATIVE ACRYLIC
3. iii. PS
   PTX or PTZ
   DECORATIVE ACRYLIC
4. iv. DECORATIVE ACRYLIC
   PTX or PTZ
   DECORATIVE ACRYLIC
5. v . DECORATIVE ACRYLIC
   PTX or PTZ
   DECORATIVE PLASTIC
6. vi. MELAMINE FILM
   PTX or PTZ
   DECORATIVE PLASTIC
7. vii. COULD
   PTX or PTZ
   DECORATIVE PLASTIC
8. viii. PS
   PTX or PTZ
   DECORATIVE PLASTIC
9. ix. MELAMINE FILM
   PTX or PTZ
   DECORATIVE MELAMINE
10. x. COULD
    PTX or PTZ
    DECORATIVE MELAMINE
11. xi. PS
    PTX or PTZ
    DECORATIVE MELAMINE
12. xii. DECORATIVE ACRYLIC
    PTX or PTZ
    COULD
    PTX or PTZ
    COULD
    PTX or PTZ
    DECORATIVE PLASTIC
13. xiii. DECORATIVE ACRYLIC
    PTX or PTZ
    PS
    PTX or PTZ
    PS
    PTX or PTZ
    DECORATIVE PLASTIC
14. xiv. MELAMINE FILM
    DECORATIVE PLASTIC
    PTX or PTZ
    PU or ACRYLIC or PET
15. xv. PU or ACRYLIC or PET
    DECORATIVE ACRYLIC
    PTX or PTZ
    MELAMINE FILM
16. xvi. MELAMINE FILM
    DECORATIVE MELAMINE
    PTX or PTZ
    MELAMINE FILM
17. xvii. MELAMINE FILM
    DECORATIVE PLASTIC
    PTX or PTZ
    MELAMINE FILM
18. xviii. PU or ACRYLIC or PET
    DECORATIVE PLASTIC
    PTX or PTZ
    PU or ACRYLIC or PET
19. xix. MELAMINE FILM
    DECORATIVE ACRYLIC
    PTX or PTZ
    MELAMINE FILM
20. xx. ACRYLIC
    PTX or PTZ
    ACRYLIC
    PTX or PTZ
    ACRYLIC
    PTX or PTZ
    ACRYLIC
21. xxi. PET
    PTX or PTZ
    PET
    PTX or PTZ
    PET
    PTX or PTZ
    PET
22. xxii. MEMAMINE FILM
    PTX or PTZ
    MELAMINE FILM
    PTX or PTZ
    MELAMINE FILM
    PTX or PTZ
    MELAMINE FILM
23. xxiii. COULD
    PTX or PTZ
    COULD
    PTX or PTZ
    COULD
    PTX or PTZ
    COULD
24. xxiv. PU or ACRYLIC or PET
    DECORATIVE ACRYLIC
    PTX or PTZ
    PU or ACRYLIC or PET
25. xxv. DECORATIVE ACRYLIC
    PTX or PTZ
    MELAMINE FILM
26. xxvi. MELAMINE FILM
    DECORATIVE ACRYLIC
    PTX or PTZ
    PU or ACRYLIC or PET
27. xxvii. DECORATIVE ACRYLIC
    PTX or PTZ
    DECORATIVE ACRYLIC

• PU = couches de polyuréthane
• PTX = Tissus synthétiques de polymère de polyoxyéthylène oxy-téréphtaloyle composés de fils de haute ténacité en tissu tressé, imprégnés de pellicules polymères adhésives et/ou de résine de mélamine liquide.
• PTZ = Tissus synthétiques de polymères de polyoxyéthylène oxy-téréphtaloyle avec des fils de ténacité moyenne en tissage à plat, imprégnés de pellicules polymères adhésives et/ou de résine de mélamine liquide.
• PET = polyéthylène téréphtalate.
• ABS = acrylonitrile butadiène styrène.

According to the present invention, the abbreviations used mean:

• PU = polyurethane layers
• PTX = Synthetic fabrics of polyoxyethylene oxy-terephthaloyl polymer composed of high tenacity yarns in braided fabric, impregnated with adhesive polymer films and / or liquid melamine resin.
• PTZ = Synthetic fabrics of polyoxyethylene oxy-terephthaloyl polymers with medium tenacity yarns in flat weave, impregnated with adhesive polymer films and / or liquid melamine resin.
• PET = polyethylene terephthalate.
• ABS = acrylonitrile butadiene styrene.

Only certain preferred embodiments of the invention have been illustrated by way of example. In this regard, it will be observed that the construction of the panel assembly structured by a combination of melamine resin, polyurethane (PU), acrylic, polyethylene / metallocene (PE / metallocene), polyester, epoxy or acrylonitrile butadiene styrene (ABS), with woven and non-woven fabrics with natural, synthetic, polymer and / or mineral fibers, as well as the configuration arrangements, can be chosen from a plurality of alternatives without departing from the essence of the invention defined by the claims below.

Claims (13)

Panel assembly characterized in that it comprises: outer coating layers (1) of resin which comprise an anterior layer and a posterior layer which cover the panel with a film selected from melamine, polyurethane (PU), acrylic, polyethylene / metallocene (PE / metallocene) ), polyester, epoxy or acrylonitrile butadiene styrene (ABS); core layers (4) disposed inside the panel which comprise woven and non-woven fabrics with natural, synthetic, polymer and / or mineral fibers; and, in conjunction with a thermoplastic film of adhesive (5) formed from the combination of modified low density polyethylene (MLDPE) with high density polyethylene (HDPE) and C8 Octane or metallocene. Panel assembly according to claim 1, characterized in that it further comprises decorative plastic and acrylic layers. Panel assembly according to Claim 2, characterized in that the core layer (4) is a synthetic fabric of polyoxyethylene oxy-terephthaloyl polymer composed of high tenacity yarns with a braided weave. Panel assembly according to claim 2 characterized in that the core layer (4) is a fabric of regenerated synthetic fibers such as cellulose, rayon, acetate, triacetate and the like or combinations thereof. Panel assembly according to Claim 2, characterized in that the core layer (4) is a fabric of synthetic fibers in combination with polymers such as nylon, polyester, elastane, acrylic, para-aramids and meta- aramids, PBO fibers (p-phenylene benzobisoxazol), carbon fibers, polypropylene and the like or combinations thereof. Panel assembly according to Claim 2, characterized in that the core layer (4) is a synthetic fabric of polyoxyethylene oxy-terephthaloyl polymer composed of threads of medium tenacity with a flat weave. Panel assembly according to Claim 2, characterized in that the core layer (4) is a fabric of natural fibers of plant origin such as cotton, linen, jute, Kapok <cotton silk>, bamboo, fiber nettle <Urtica Doica>, Hinoki cypress fiber <Chamaecyparis obtusa> and the like or combinations thereof. Panel assembly according to claim 2 characterized in that the core layer (4) is a fabric of animal fibers such as wool, silk and the like or their combinations. Panel assembly according to Claim 2, characterized in that the core layer (4) is a fabric of mineral fibers, fiberglass, ceramic and graphite among others. Panel assembly according to any one of the preceding claims, characterized in that the core layers (4) are impregnated with liquid melamine. Process for manufacturing a panel assembly characterized in that it comprises a first (i) pressing step of: outer coating layers (1) of resin which comprise an anterior layer and a posterior layer which cover the panel with a film selected from melamine, polyurethane (PU), acrylic, polyethylene / metallocene (PE / metallocene) , polyester, epoxy or acrylonitrile butadiene styrene (ABS); core layers (4) arranged inside the panel which comprise woven and non-woven fabrics with natural, synthetic, polymer and / or mineral fibers, in connection by pressing with high pressure laminating presses (HPL) with a thermoplastic adhesive film (5) formed from the combination of modified low density polyethylene (MLDPE) with high density polyethylene (HDPE) and C8 Octane or metallocene; and, wherein the pressure lamination ranges from 10 to 15 kg / cm ² at cure melt temperatures between 130 ° and 145 ° C; based on the melting point of each film. A method of manufacturing a panel assembly according to claim 11 characterized in that when the thermoplastic film of adhesive (5) is molten, the method comprises: (ii) a second step which comprises increasing the pressure to a ^{minimum of 110 kg / cm 2} to form a flow of thermoplastic film of adhesive (5) in fusion between the very tight meshes of textile between the upper films and lower forming a solid whole; and (iii) a third cooling step, during which the thermoplastic film of adhesive (5) will be solidified. Process for manufacturing a panel assembly according to Claim 12, characterized in that the core layers are impregnated with liquid melamine.

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