WO2011082491A1 - Compositions de planchers souples - Google Patents

Compositions de planchers souples Download PDF

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Publication number
WO2011082491A1
WO2011082491A1 PCT/CA2011/000025 CA2011000025W WO2011082491A1 WO 2011082491 A1 WO2011082491 A1 WO 2011082491A1 CA 2011000025 W CA2011000025 W CA 2011000025W WO 2011082491 A1 WO2011082491 A1 WO 2011082491A1
Authority
WO
WIPO (PCT)
Prior art keywords
layer
impregnated
elastomeric
paper
papers
Prior art date
Application number
PCT/CA2011/000025
Other languages
English (en)
Inventor
Robert N. Clausi
Salvatore A. Diloreto
Original Assignee
Clausi Robert N
Diloreto Salvatore A
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Clausi Robert N, Diloreto Salvatore A filed Critical Clausi Robert N
Priority to CA2785734A priority Critical patent/CA2785734A1/fr
Priority to US13/519,964 priority patent/US20120276348A1/en
Priority to EP11731649.7A priority patent/EP2521828A4/fr
Publication of WO2011082491A1 publication Critical patent/WO2011082491A1/fr

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Classifications

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Definitions

  • This invention relates to multi-layer resilient flooring materials made with elastomeric thermosetting/thermoplastic resin-impregnated papers or foils and core materials.
  • it relates to a resilient flexible floor coverings or high pressure laminated composite material made of layered papers and an optional flexible core material.
  • resilient floor covering materials can be made using several technologies. These technologies include rubber flooring, linoleum, cork, vinyl, etc. Vinyl flooring includes luxury vinyl tile (LVT), vinyl composition tile (VCT), and sheet vinyl flooring. Luxury vinyl tile (LVT) is a popular flooring product.
  • Vinyl flooring is thermoplastic, which means that it can be remelted.
  • Vinyl flooring contains stabilizers and plasticizers. There is no standard formula for these additives and there are differences between manufacturers, so there is no uniformity to reclaimed vinyl - and therefore no easy or cost effective way of extracting these chemicals. The same is true for limestone, the standard filler for vinyl. Limestone, which is calcium carbonate, makes up about 80% of vinyl composition tile (VCT) and VCT accounts for about 63% by volume of all commercial hard surface flooring, and its composition presents considerable barriers for reclamation.
  • VCT vinyl composition tile
  • PVC requires less petroleum in its formulation than other plastics, the chlorine extraction process is energy intensive.
  • PVC is a petroleum based plastic, and that means that its production from virgin materials comes at a substantial environmental price.
  • Vinyl is the only plastic made largely from a non-petroleum source.
  • the raw materials for polyvinyl chloride (PVC) are 43% petroleum and 57% salt (sodium chloride).
  • the salt derived from seawater, goes through electrolysis to release its chlorine, which is combined with ethylene, a petroleum derivative, to create ethylene dichloride. This chemical is converted at high temperatures to vinyl chloride, the monomer that is polymerized into polyvinyl chloride.
  • Vinyl is brittle by nature so for use in flooring and other applications, plasticizers and stabilizers are added. These days, stabilizers tend to be made of zinc, calcium and tin, as opposed to a couple of decades ago, when heavy metals like lead and cadmium were common.
  • the vinyl flooring industry uses two plasticizers from the phthalate family, DINP and BBP, while in the past DEHP was used.
  • LVT flooring is produced by assembling several layers including: a clear wear layer made from PVC film; a printed layer made from PVC film; a core material made from calcium carbonate and chemical plasticizers; and a backing or balancing layer made from PVC.
  • the loose individual layers are pressed in a high pressure press, with embossing texture plates, at high temperatures. Once cured, the large sheets are die cut into tiles or planks.
  • Vinyl flooring is generally installed with adhesives to a smooth wood or concrete subfloor. Because of the thermoplastic nature of the vinyl, the subfloor surfaces must be smooth. Any surface imperfections such as cracks in concrete, bumps, etc. tend to telegraph or show through the floor.
  • This patent describes a new resilient flooring material that would be an alternative to vinyl made from recycled materials.
  • the present invention aims to provide a new alternative resilient flooring material combining the natural appearance of wood, stone, tile or modern patterns and colors; containing no PVC or plasticizers; made from materials including paper, cork, wood fibers, recycled rubber sheet or natural mineral fillers; with the feel of traditional wood flooring, and being a resilient, sound reducing composition.
  • This new product could be made in a variety of thicknesses, and installed with or without adhesive or manufactured with a self-adhesive peel and stick backing layer.
  • Surface texture impressions can be realized to obtain an imitation of wood grain, stone and other textures. With the known embodiments, this is performed by providing a series of impressions in the floor panels, which impressions substantially extend in the same direction or in random directions.
  • the present invention describes a resilient, flexible panel having multiple flexible layers, including floor coverings, and more particularly floor panels, whereby one or more layers comprising the resilient layer panel structure are made from papers, foils, or woven materials that may be impregnated and or coated with an elastomeric resin, film or material.
  • the new invention consists of several independently treated loose flexible layers which are placed in a heated press and pressed under pressure for a period of time. The pressed panel is removed from the press and subsequently die cut or machine cut to a specific size.
  • the flexible layers might include (i) an optional impregnated and coated wear paper layer that has a translucent surface; (ii) an impregnated and coated decorative paper layer that has a printed surface; (iii) a core layer made from a variety of materials; (iv) a backer layer consisting of impregnated and coated paper.
  • the above description may be modified to remove or add one or more layers depending upon the type of floor product and performance characteristics that are required.
  • Additional flexible layers may include one or more of the following: (i) a felt layer to add stability and reduce the possibility of telegraphing subfloor surface imperfections; (ii) a linoleum core layer; (iii) a cork core layer; (iv) a natural or synthetic rubber core layer; (v) a natural or synthetic rubber backing layer where the flooring is designed to be loose-laid without adhesive; and (vi) a pressure sensitive adhesive layer. Any of the layers may be applied in a single-step during the pressing/forming cycle or in
  • the surface texture plates may also be designed for register embossing where the texture (e.g. wood plank) can correspond with the graphic image printed on the decorative layer with an embossing texture that is aligned to a graphic image.
  • texture e.g. wood plank
  • the press may have texture plates made from chromium steel or other similar material attached to the upper and lower press platens.
  • the surface texture plates may have various textures which correspond to the decorative paper style. An example of this would be to have wood grain texture plates combined with wood-grain printed decorative papers.
  • each layer can be processed in different manners, for example, previous to the application thereof on the underlying basic layer, a layer may be soaked or coated in elastomeric resin or such.
  • the elastomeric resin may consist of a solution polymer or a dispersion, or both applied in different steps to the paper or film.
  • a printed decoration can be printed directly on to the impregnated paper core layer and the decorative layer may thereby be eliminated.
  • the elastomeric material may be impregnated onto the wear layer, or, in some cases, substituted for the wear layer.
  • the elastomeric material can also be modified to include wear particles for improved wear resistance, as discussed herein below. Accordingly, the entire panel assembly may be "tuned" to reduce noise depending upon the characteristics of the core panel.
  • Each of the layers may be impregnated or receive coatings of elastomeric material.
  • the elastomeric material may also be of differing hardness.
  • this elastomeric coating, film or material consists of a natural or synthetic resin with elastomeric properties, applied, for example, in very thin layers to the paper layers and/or the core.
  • the papers or woven materials are saturated with the elastomeric resin, film or material.
  • the present invention also relates to a method of production of the resilient materials, and in particular, the resilient flooring material or coverings described herein.
  • the present invention also provides a method for the production of a resilient material, and preferably a resilient flooring material, comprising preparing multiple component layers, and pressing said component layers together, wherein one or more layers comprising the resilient material are made from papers, foils or woven materials, which papers, foils or woven materials are impregnated with, or coated with, an elastomeric resin, film or material.
  • a further embodiment of the invention would be, to apply the impregnated decorative paper with wear particles to a linoleum, rubber or cork sheet.
  • a loose assembly including an impregnated decorative linoleum core layer and the impregnated paper backing layer would be placed in a heated fast-cycle press to fuse the layers together into a layered resilient floor panel. Subsequent operations may include die cutting, edge machining, inspection, and packaging.
  • the invention aims at creating a new alternative resilient floor product, it will be obvious to a person skilled in the art that this inventive idea can be realized in different ways.
  • the same elastomeric coatings may be applied to decorative papers and foils or even wood elastomeric resin impregnated wood-veneers as a core material.
  • the backing layer may have an adhesive or self-adhesive coating applied to allow for a non-glue "press and stick" product.
  • an elastomeric film or films may be substituted for the coating.
  • the invention also relates to resilient floor panels which may be produced with direct printing technology where the paper or core materials are printed directly and subsequently a translucent an impregnated elastomeric film or thermoset paper wear layer is applied to the upper surface of the panel and a pre-impregnated thermoset paper backing layer is also applied to the lower surface.
  • the water-based elastomeric impregnating resin (approximately 40% solids) may be applied to the thick paper-based core layer and subsequently the core panel may be placed in a vacuum chamber to allow the elastomeric dispersion resin to completely impregnate the core.
  • the core paper or any of the decorative or backing papers may be subjected to a multi-step treatment using a water-based elastomeric solution that easily penetrates the papers and in a secondary step the papers may be treated with a water-based elastomeric dispersion. After the impregnation process is complete, the papers must be dried to remove all excess moisture.
  • the papers may be processed in continuous roll form using impregnating and coating lines well known in the paper industry such as a VITS impregnation line.
  • the invention also relates to a method for realizing a floor panel, where the wear layer has a thermoplastic film instead of the thermoset resin-impregnated paper wear layer.
  • This wear layer could be assembled over a decorative paper or vinyl foil or a directly printed panel, a core and a paper or thermoplastic balance layer.
  • the floor panels hereby are formed from larger panels.
  • These panels may consist of (i) a wear layer paper or foil that has been impregnated with an elastomeric thermosetting/thermoplastic resin which may include aluminum oxide or other abrasion resistant particles; (ii) a decorative layer that may be treated with a thermosetting/thermoplastic elastomeric impregnating resin; (iii) a core consisting of one or more layers of resin-impregnated paper board, linoleum, cork, natural or synthetic rubber, or flexible wood (and any combinations thereof) that may be treated with a thermosetting/thermoplastic elastomeric coating or impregnating resin; and/or (iv) a lower balancing paper or foil layer that has been impregnated with a thermosetting/thermoplastic elastomeric impregnating resin; and other possible layers.
  • thermosetting/thermoplastic elastomeric impregnating resin may occur during the production of any of the components of the layered assembly, or in the manufacture of any of the individual components which comprise the layered assembly.
  • the loose assembly is transferred to a heated press to compress and fuse the layers into a whole, whereby the thermosetting/thermoplastic elastomeric
  • the embossed impressions are applied, by the press, as either surface of the pressing part comes into contact with, the part to create a single layered part in accordance with the invention.
  • a thin elastomeric coating or film may also be applied to the upper decorative surface or the edge surfaces.
  • the above-mentioned further embodiment will also act to seal the floor panel from moisture and provide improved wear properties.
  • FIG. 1 represents cross-sectional view of a typical luxury vinyl tile floor covering according to the prior art
  • FIG. 2 represents an embodiment of the present invention with three
  • FIG. 3 represents another embodiment of the present invention with an impregnated decorative paper layer with wear particles, multiple impregnated paper layers to build up the core layer, and an impregnated paper backer layer;
  • FIG. 4 represents the present invention described in Figure 2 with a linoleum core layer
  • FIG. 5 represents the present invention described in Figure 2 with a flexible natural fiber composite core layer
  • FIG. 6, represents the present invention described in Figure 2 with a flexible cork core layer
  • FIG. 7 represents the present invention described in Figure 2 with a flexible natural or synthetic rubber core layer
  • FIG. 8 represents the present invention described in Figure 2 with a flexible expanded or solid polyethylene or polypropylene core layer
  • FIG . 9 represents the present invention described in Figure 2 with a high density flexible foam core layer
  • FIG. 10 represents the present invention described in Figure 2 with an additional felt layer below the paper core layer;
  • FIG 1 1 represents the present invention described in Figure 2 with an additional impregnated glass fiber layer below the paper core layer.
  • FIG. 1 is an expanded three-dimensional view of a typical luxury vinyl tile of the prior art which incorporates the clear thermoplastic PCV wear layer 1 , a printed PVC decorative layer 2, a core made with calcium carbonate, plasticizers and other additives
  • thermoplastic PVC backer layer 4 a thermoplastic PVC backer layer 4.
  • FIG. 2 shows an expanded three-dimensional view of a preferred embodiment of the present invention which incorporates a printed paper decorative layer impregnated with an elastomeric thermosetting/thermoplastic resin which, in an optional feature, incorporates abrasion particles 5, a paper board core layer impregnated with an elastomeric thermosetting/thermoplastic resin 6, and a paper backer layer with a weight of approximately 125 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin 7.
  • FIG. 3 is an expanded cross section of another preferred embodiment of the present invention which includes a translucent wear layer paper with a weight of approximately 25 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin which incorporates abrasion particles 8, a decorative printed paper layer with a weight of approximately 60 g/m 2 impregnated with flexible water based polyurethane dispersion 9, a core layer consisting of multiple core layer papers with a weight of approximately 125 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin 10, and a paper backer layer with a weight of approximately 125 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin 7.
  • a decorative printed paper layer with a weight of approximately 60 g/m 2 impregnated with flexible water
  • FIG. 4 is an expanded cross section of another embodiment of the present invention which includes a printed decorative paper layer with a weight of approximately 60 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin which incorporates abrasion particles 5, a linoleum core layer 1 1 , and a paper backer layer impregnated with an elastomeric thermosetting/thermoplastic resin 7.
  • FIG. 5 is an expanded cross section of another embodiment of the present invention which includes a printed decorative paper layer with a weight of approximately 60 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin which incorporates abrasion particles 5, a resilient natural fiber composite core layer 12, and a paper backer layer with a weight of approximately 125 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin 7.
  • FIG. 6 is an expanded cross section of another embodiment of the present invention which includes a printed decorative paper layer with a weight of approximately 60 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin which incorporates abrasion particles 5, a flexible cork core layer 13, and a paper backer layer with a weight of approximately 125 g/m 2 impregnated with an elastomeric
  • thermosetting/thermoplastic resin 7 thermosetting/thermoplastic resin 7.
  • FIG. 7 is an expanded cross section of another embodiment of the present invention which includes a printed decorative paper layer with a weight of approximately 60 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin which incorporates abrasion particles 5, a flexible natural or synthetic rubber core layer 14, and a paper backer layer with a weight of approximately 125 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin 7.
  • FIG. 8 is an expanded cross section of another embodiment of the present invention which includes a printed decorative paper layer with a weight of approximately 60 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin which incorporates abrasion particles 5, a flexible expanded or solid polyethylene or polypropylene core layer core layer 15, and a paper backer layer with a weight of approximately 125 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin 7.
  • FIG. 9 is an expanded cross section of another embodiment of the present invention which includes a printed decorative paper layer with a weight of approximately 60 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin which incorporates abrasion particles 5, a flexible high density flexible foam core layer core layer 16, and a paper backer layer with a weight of approximately 125 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin 7.
  • FIG. 10 is an expanded cross section of another embodiment of the present invention which includes a printed decorative paper layer with a weight of approximately 60 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin which incorporates abrasion particles 5, a paper board core layer impregnated with an elastomeric thermosetting/thermoplastic resin 6, a felt layer 17, and a paper backer layer with a weight of approximately 125 g/m 2 that has been impregnated with an elastomeric thermosetting/thermoplastic resin 7.
  • FIG. 1 1 is an expanded cross section of another embodiment of the present invention which includes a printed decorative paper layer with a weight of approximately 60 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin which incorporates abrasion particles 5, a paper board core layer impregnated with an elastomeric thermosetting/thermoplastic resin 6, a glass fibre layer impregnated with flexible water based polyurethane dispersion 18, and a paper backer layer with a weight of approximately 125 g/m 2 impregnated with an elastomeric thermosetting/thermoplastic resin 7.
  • the glass fibre layer can be replaced with a flexible cloth layer made of a natural or synthetic woven material, such as, for example, cotton, jute, polyester, or the like.
  • thermosetting/thermoplastic resin could be made from an elastomeric material in various forms including liquid, solid, film, one component or multi- component; thermoset, thermoplastic (TPE), solution polymer or water-based dispersion and latexes. Either block or alternating or random copolymers may be used.
  • the said material can be based on, but not limited to the following polymers: PE, all grades (LLDPE, LDPE, MDPE, HDPE); Polyurethane; Polypropylene; Ethylene vinyl acetate; Ethylene vinyl alcohol; Polyester; Polyolefin (TPO); Urea and Urea-modified thermoset resins; modified Melamine-based thermoset resins; Phenolic resins; ESI - ethylene styrene interpolymer or any of the styrene acrylic copolymers and Acrylic resins; rubber based materials, NBR (nitrile Butadiene), SBR (styrene butadiene), CR (chloroprene), silicone, fluorocarbon, acrylamide, epichlorohydrin, and/or carboxylated natural and synthetic latexes.
  • the resins may be used individually, in combinations, or as flexiblizing additives to traditional paper impregnation resins such as Melamine, Urea, and
  • the thickness of the coating is preferably from 1 micron to 3 mm, but thinner or thicker coatings might also be used.
  • the application of the elastomeric material shall not be limited to the coating of the core or the layering papers top or bottom.
  • elastomeric material may comprise of a modified paper or flexible foil or a paper or foil with an elastomeric coating.
  • the elastomeric thermosetting/thermoplastic resin could also be a flexible resin system used to coat or impregnate any or all of the paper or core layers, and/or combinations thereof.
  • this elastomeric material may be in the form of a water-based dispersion or a water-based solution polymer which by itself may have defined limits of elongation of 0 - 2000%, a 100% modulus between 0-1500 psi, and a tensile strength between 0 - 5000 psi by ASTM D-412 .
  • the elastomeric material and the decorative layer, before their application on the base (or core) panel may consist of a single layer, for example, in that the decorative layer is soaked such that sufficient elastomeric material is present thereupon to provide the sound absorbing and improved stress relieving properties therein. It is also not excluded to start from a layer of elastomeric material which is provided with a decorative layer at the underside, which layer is exclusively formed by a print. The term print must be interpreted in the broadest sense, and thereby any technique is intended to provide for a decorative graphic image for the panel surface.
  • top layer may be taken up in the top layer, such as, for example, a layer of white paper, also impregnated with resin, which is provided under the decorative layer, which has the purpose of forming a neutral background.
  • a layer of white paper also impregnated with resin, which is provided under the decorative layer, which has the purpose of forming a neutral background.
  • a transparent wear layer consisting of a thermoplastic material such as PTO, polyethylene or polypropylene in various thicknesses may be added depending upon the desired performance properties. Variations in the type of material used to produce a core panel, the density of the core panel, the use of different resins or bonding agents, composites made with combinations of different resilient materials, and core panels made from other materials which may be natural-fiber based or which may be synthetic such as extruded plastics and flexible core materials, may further all benefit from the invention described herein. Also, other materials known in the industry, such as fire retardant materials and the like, can be included within the papers, or other layers. The papers or other layers can be pretreated with these materials prior to their use in the present invention.
  • any of the resins used herein may also include other known additives such as release agents, colouring agents, flame and smoke retardants, wear particles, and the like.
  • the paper layers would be impregnated using a VITS impregnation line normally used to impregnate papers for other industries such as the laminate floor industry.
  • VITS impregnation line normally used to impregnate papers for other industries such as the laminate floor industry.
  • the papers may be stored in a roll-form awaiting pressing and die cutting operations. Pressing methods may include platen presses, continuous roll presses or calendaring-type presses.
  • Decorative papers printed with a woodgrain pattern with a weight of approximately 65 g/m 2 as normally used in the production of laminate flooring were cut to 20 x 30 cm size.
  • a laboratory roller impregnator that consisted of a metal tray under an assembly with two rollers was used.
  • a pre-irmpregnation solution bath was prepared consisting of 50% H2O and 50% WB-90 PURchem Solution Polymer and poured into the tray. Each sheet was placed in the solution polymer and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes.
  • a second bath with a solution was prepared consisting of 20% H 2 0 and 80% WB- 100 PURchem Polyurethane Water-Based Dispersion and poured into the tray. Each sheet was placed in the solution polymer and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes.
  • the decorative papers were coated with a solution consisting of 10% H2O and 80% WB-1 10 PURchem Polyurethane Water-based Dispersion resin with Internal Mold Release (IMR) + 10% of Corundum particles (Al 2 0 3 ) with internal mold release. Each sheet was placed in the solution and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes. The dried decorative sheets were set aside. Similar steps were used to produce seven core paper sheets made from saturating kraft paper with a weight of 125 g/m 2 . Each of the sheets had a film build of 150 g per m 2 .
  • the loose assembly consisting of seven impregnated kraft paper sheets + the impregnated decorative sheet was placed in 100 ton heated hydraulic with upper and lower platens having a surface temperature of 150° C.
  • the press machine was equipped with a chromium-plated steel press plate having a woodgrain texture installed on one surface designed to make impressions into the printed decorative paper.
  • the press was closed with a surface pressure of 45 kg/m 2 for 60 seconds to allow the dried PURchem
  • Polyurethane Water-Based Dispersion polymer to melt and bond the multiple sheets forming a resilient floor panel sample with a wood-grain design and corresponding surface texture.
  • the sample was removed from the press, allowed to cool and cut to the desired dimensions.
  • a second bath with a solution was prepared consisting of 20% H2O and 80% WB- 100 PURchem Polyurethane Water-Based Dispersion and poured into the tray. Each sheet was placed in the solution polymer and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes.
  • the decorative papers were coated with a solution consisting of 10% H2O and 80% WB-110 PURchem Polyurethane Water-based Dispersion resin with Internal Mold Release (IMR) + 10% of Corundum particles (Al 2 0 3 ). Each sheet was placed in the solution and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes. The dried decorative sheets were set aside. Each of the sheets had a minimum film build of 150 g per m 2 .
  • the loose assembly consisting of a 3.0 mm thick linoleum panel + the impregnated decorative sheet + an impregnated kraft paper backing sheet was placed in 100 ton heated hydraulic with upper and lower platens having a surface temperature of 150° C.
  • the press machine was equipped with a chromium-plated steel press plate having a woodgrain texture installed on one surface designed to make impressions into the printed decorative paper.
  • the press was closed with a surface pressure of 45 kg/m for 60 seconds to allow the dried PURchem Polyurethane Water-Based Dispersion polymer to melt and bond the loose assembly forming a resilient floor panel sample with a wood- grain design and corresponding surface texture with a linoleum core.
  • the sample was removed from the press, allowed to cool and cut to the desired dimensions.
  • Decorative papers printed with a woodgrain pattern with a weight of approximately 65 g/m 2 as normally used in the production of laminate flooring were cut to 20 x 30 cm size.
  • a laboratory roller impregnator that consisted of a metal tray under an assembly with two rollers was used.
  • a pre-impregnation solution bath was prepared consisting of 50% H2O and 50% WB-90 PURchem Solution Polymer and poured into the tray. Each sheet was placed in the solution polymer and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes.
  • a second bath with a solution was prepared consisting of 20% H2O and 80% WB-
  • the decorative papers were coated with a solution consisting of 10% H2O and 80% WB-1 10 PURchem Polyurethane Water-based Dispersion resin with Internal Mold Release (IMR) + 10% of Corundum particles (Al 2 0 3 ) with internal mold release. Each sheet was placed in the solution and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes. The dried decorative sheets were set aside. Each of the sheets had a film build of 150 g per m 2 .
  • the loose assembly consisting of a 1 .5 mm thick cork panel + the impregnated decorative sheet + an impregnated kraft paper backing sheet was placed in 100 ton heated hydraulic with upper and lower platens having a surface temperature of 150° C.
  • the press machine was equipped with a chromium-plated steel press plate having a woodgrain texture installed on one surface that is designed to make impressions into the printed decorative paper.
  • the press was closed with a surface pressure of 45 kg/m 2 for 60 seconds to allow the dried PURchem Polyurethane Water-Based Dispersion polymer to melt and bond the loose assembly forming a resilient floor panel sample with a wood-grain design and corresponding surface texture with a cork core.
  • the sample was removed from the press, allowed to cool and cut to the desired dimensions.
  • a second bath with a solution was prepared consisting of 20% H2O and 80% WB- 100 PURchem Polyurethane Water-Based Dispersion and poured into the tray. Each sheet was placed in the solution polymer and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes.
  • the decorative papers were coated with a solution consisting of 10% H2O and 80% WB-1 10 PURchem Polyurethane Water-based Dispersion resin with Internal Mold
  • the loose assembly consisting of a 6.0 mm thick cork panel + the impregnated decorative sheet + an impregnated kraft paper backing sheet was placed in 100 ton heated hydraulic with upper and lower platens having a surface temperature of 150° C.
  • the press machine was equipped with a chromium-plated steel press plate having a woodgrain texture installed on one surface that is designed to make impressions into the printed decorative paper.
  • the press was closed with a surface pressure of 45 kg/m 2 for 60 seconds to allow the dried PURchem Polyurethane Water-Based Dispersion polymer to melt and bond the loose assembly forming a resilient floor panel sample with a wood-grain design and corresponding surface texture with a cork core.
  • the sample was removed from the press, allowed to cool and cut to the desired dimensions.
  • a laboratory roller impregnator that consisted of a metal tray under an assembly with two rollers was used.
  • a pre-impregnation bath was prepared consisting of 100% WB-90 PURchem Solution Polymer and poured into the tray. Each sheet was placed in the solution polymer and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes.
  • a second bath was prepared consisting of 100% WB-100 PURchem Polyurethane Water-Based Dispersion and poured into the tray. Each sheet was placed in the solution polymer and gently pulled between the rollers to remove any excess. The sheets were dried to remove excess moisture in an oven with a temperature of 90° C for 3 minutes.
  • the decorative papers were coated with 100% WB-1 10 PURchem Polyurethane
  • the loose assembly consisting of seven impregnated kraft paper sheets plus the impregnated decorative sheet was placed in 100 ton heated hydraulic with upper and lower platens having a surface temperature of 150° C.
  • the press machine was equipped with a chromium-plated steel press plate having a woodgrain texture installed on one surface designed to make impressions into the printed decorative paper.
  • the press was closed with a surface pressure of 45 kg/m 2 for 60 seconds to allow the dried PURchem
  • Polyurethane Water-Based Dispersion polymer to melt and bond the multiple sheets forming a resilient floor panel sample with a wood-grain design and corresponding surface texture.
  • the sample was removed from the press, allowed to cool and cut to the desired dimensions.
  • the present invention is in no way limited to the forms of embodiment described as an example and represented in the figures. On the contrary, the present invention, including floor covering, and more particularly said panels, as well as the methods described herein, may be realized in different variants without leaving the scope of the invention.
  • the technology described herein shall not be limited to floor covering products and therefore can be used in the production of floor or wall panels, wallpapers, doorskins, furniture panels and components, automotive components, consumer goods, electronics components, foot-ware, clothing, packaging products, etc.
  • a resilient flooring material and a process for producing such a flooring material, which fully satisfies the goals, objects, and advantages set forth hereinbefore.
  • substantially planar when used with an adjective or adverb is intended to enhance the scope of the particular characteristic; e.g., substantially planar is intended to mean planar, nearly planar and/or exhibiting characteristics associated with a planar element.

Abstract

L'invention concerne des matériaux souples pour planchers fabriqués à partir de papiers ou de feuils imprégnés et de matériaux de cœur. L'invention concerne aussi des procédés de production de tels produits. En particulier, des panneaux sont fabriqués avec une structure stratifiée créée en formant un assemblage constitué par laminage d'une couche décorative imprégnée de résine activable à la chaleur avec un graphisme imprimé ou une couche décorative en bois de placage, d'un matériau de cœur constitué d'un ou de plusieurs papiers imprégnés de résine activable à la chaleur ou d'autres matériaux y compris du linoléum, du caoutchouc naturel ou synthétique, du liège, des composites en fibres naturelles flexibles ou d'autres matériaux de cœur, et d'une couche de support en papier imprégné de résine activable à la chaleur. La résine activable à la chaleur sert également à imperméabiliser chacune des couches et des particules abrasives peuvent être incorporées pour améliorer les propriétés d'usure. Les panneaux peuvent aussi être formés en produits tridimensionnels.
PCT/CA2011/000025 2010-01-07 2011-01-07 Compositions de planchers souples WO2011082491A1 (fr)

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CA2785734A CA2785734A1 (fr) 2010-01-07 2011-01-07 Compositions de planchers souples
US13/519,964 US20120276348A1 (en) 2010-01-07 2011-01-07 Resilient flooring compositions
EP11731649.7A EP2521828A4 (fr) 2010-01-07 2011-01-07 Compositions de planchers souples

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US29288110P 2010-01-07 2010-01-07
US61/292,881 2010-01-07

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US11951719B2 (en) 2016-04-12 2024-04-09 SWISS KRONO Tec AG Support carrier material with a modified resin layer, and the production thereof
EP3600695A4 (fr) * 2017-03-27 2020-12-02 Robert N. Clausi Système de revêtement par pressage pour la production de produits de type panneaux
EP3645270B1 (fr) * 2017-06-26 2023-08-16 Champion Link International Corporation Panneau permettant de former un revêtement de plancher, procédé de fabrication d'un panneau, utilisation d'un précurseur adhésif
CN109235830B (zh) * 2018-10-09 2020-11-24 阜南佳利工艺品股份有限公司 一种使用改性树脂提高浸渍纸层压木质地板耐磨性的方法
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