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WATERPROOF PANEL, PROCESS FOR PRODUCING A PANEL, AND PANEL OBTAINABLE BY SAID PROCESS

20210214958 ยท 2021-07-15

    Inventors

    Cpc classification

    International classification

    Abstract

    The invention relates to a panel suitable for constructing a waterproof floor or wall covering, wherein the panel has a substantially planar top surface, a substantially planar bottom surface, and at least four substantially linear side edges. The invention also relates to a process for producing a panel according to the invention. The invention further relates to a panel obtainable by said process according to the invention.

    Claims

    1-40. (canceled)

    41. A rigid panel suitable for constructing a waterproof floor or wall covering, comprising: the panel having a substantially planar top surface, a substantially planar bottom surface, and at least four substantially linear side edges, wherein the rigid panel has a laminate structure which comprises: a rigid core layer composed of a composite material comprising a mixture of mineral material and thermoplastic material, a top layer fixed to the core layer, wherein the composite material contains a ratio of weight percentages of mineral material relative to thermoplastic material which is 1 or larger, wherein the top layer is a veneer layer adhered to a top surface of the core layer.

    42. The panel according to claim 41, wherein the composite material comprises at least 60% by weight of mineral filler.

    43. The panel according to claim 42, wherein the composite material comprises a maximum of 85% by weight of mineral filler.

    44. The panel according to claim 41, wherein the composite material comprises at least 15% by weight of thermoplastic material.

    45. The panel according to claim 44, wherein the composite material comprises a maximum of 40% by weight of thermoplastic material.

    46. The panel according to claim 41, wherein the veneer layer is selected from the group consisting of wood veneer, cork veneer, bamboo veneer, tile veneer, stone veneer, rubber veneer, decorative plastic veneer, linoleum veneer and decorative vinyl veneer.

    47. The panel according to claim 41, wherein the composite material comprises one or more additives chosen from the group consisting of: a pigment, an impact modifier, a lubricant, a stabilizer, a wax, and/or an aid processing agent.

    48. The panel according to claim 41, wherein the composite material comprises less than 5 wt. % plasticizer.

    49. The panel according to claim 41, wherein the rigid core layer comprises at least one mineral material selected from the group consisting of: magnesium oxide, calcium carbonate, chalk, clay, calcium silicate, and talc.

    50. The panel according to claim 41, wherein the composite material comprises one or more thermoplastic materials chosen from the group consisting of: PVC, PE, PU, ABS and PP.

    51. The panel according to claim 41, wherein the composite material has a solid structure in which cavities or cells, and/or in which a foamed structure, are substantially absent.

    52. The panel according to claim 41, wherein the density of the composite material is situated in between 1500 and 2200 kg/m.sup.3.

    53. The panel according to claim 41, wherein the core layer is an extruded layer formed by an extrusion process or a co-extrusion process.

    54. The panel according to claim 41, wherein the core layer and the top layer are fixed to each other by virtue of a fusion bonding which has been formed under heat and pressure.

    55. The panel according to claim 41, comprising at least one pair of opposite side edges which are provided with interconnecting coupling means for interconnecting one panel with another panel.

    56. The panel according to claim 41, wherein the modulus of elasticity of the panel, measured according to EN 310, is situated in between 4000 to 10.000 MPa.

    57. The panel according to claim 41, wherein the modulus of elasticity of the composite material, measured according to EN 310, is situated in between 4000 to 10.000 MPa.

    58. A process for producing a panel according to claim 41, wherein the core layer and the top layer are fixed to each other in a fusion step wherein heat and pressure are applied to an assembly of the core layer and the top layer, and during which step a fusion bonding is established.

    59. The process according to claim 58, wherein the process is a batch process, or a continuous process.

    60. The process according to claim 59, wherein the continuous process includes the steps of: preparing a composite material by mixing of the compounds included in the composite material; extruding a molten core layer of the composite material using an extruder; leading the molten core layer over rollers; providing a top layer and leading the top layer towards an upper surface of the molten core layer wherein the bottom surface of the top layer is applied onto the upper surface of the molten layer to obtain an assembled structure; applying pressure and heat on the assembled structure such that a fusion bonding is established between the top layer and the molten core layer; and cooling of the assembled structure after formation of the fusion bonding.

    Description

    [0067] The attached FIG. 1 shows schematically the process by which the laminate material for the panel is produced.

    [0068] The top layer 1 consisting of a wear layer fixed onto a decorative layer that have been fused together in a separate process, is provided on a roll 3.

    [0069] The compounds included in the composition for the core layer are mixed in a suitable mixer 5 and the obtained raw mixture of material is led into an extruder 7. The extruder expels a melted core layer 9 which is led through two counter rollers 11.

    [0070] At the nip between the counter rollers 11, the top layer 1 is merged with the melted core layer 9. The melted core layer is hot and flexible at this stage. The top layer 1 is led over a heating roller 13, which pre-heats the top layer 1 before it merges with the core layer 9.

    [0071] During the passage through the nip of the counter rollers 11, pressure is exerted on the merged structure of top layer and core layer. The counter rollers 11 are heated so that an optimum temperature is assured for the formation of a fusion bonding between the top layer 1 and the core layer 9.

    [0072] Subsequently, the obtained sheet of laminate material 15 is allowed to cool off, and finally led towards a cutting station (not shown) in which the laminate sheet material is cut into panel pieces.

    [0073] Optionally, the opposite side edges of the cut panel pieces are furthermore provided with interconnecting coupling means for interconnecting one panel with another.

    [0074] In Examples 2-4, alternative, exemplary compositions are given, which may also be used in a waterproof panel according to the invention.

    Example 2

    [0075]

    TABLE-US-00002 amount compound (wt. %) Wear layer PVC 80 Plasticizer โ€‚0 (oiled based or bio compound) Additive 20 Decorative PVC 90 layer Plasticizer โ€‚0 Additive 10 Core layer Calcium Carbonate 65-70 PVC 25-30 Additive Stabilizer 2.7-3.1 MBS 0.5-1.3 Wax 0.5-0.9 Plasticizer โ€‚0 Aid processing 1.2-2.3

    Example 3

    [0076]

    TABLE-US-00003 amount Compound (wt. %) Wear layer Paper 20-40 Melamine resin 60-80 Decorative layer Paper 40-60 Melamine resin 40-60 Sublayer layer Kraft paper 40-60 Melamine resin 40-60 Core layer Calcium Carbonate 65-70 Plasticizer 0 PVC 25-30 Additive 4-7

    Example 4

    [0077]

    TABLE-US-00004 Compound amount (wt. %) Wear layer Paper 20-40 Melamine resin 60-80 Decorative layer Paper 40-60 Melamine resin 40-60 Sublayer layer Kraft paper 0 Melamine resin 0 Core layer Sublayer 1 Wood dust 40-50 PVC 40-50 Additive 4-7 Sublayer 2 Calcium Carbonate 65-70 Plasticizer 0 PVC 25-30 Additive 4-7 Sublayer 3 Wood dust 40-50 PVC 40-50 Additive 4-7