A decorative panel including a substrate material and decorative top layer, wherein the decorative top layer includes at least one timber layer, wherein the timber layer is a compressed timber layer with a permanent increased density as compared to an original timber layer, wherein the decorative panel is a square or rectangular floor panel which, at, at least one pair of opposite edges, or at both pairs, includes mechanical coupling allowing to couple two of such floor panels to each other such that a locking is created in a vertical direction perpendicular to a plane of the coupled panels, as well as in a horizontal direction perpendicular to a coupled edge and in the plane of the coupled panels, the mechanical coupling being in the substrate material.

The present invention relates to a method for producing a laminate comprising a paper or paperboard substrate and a microfibrillated cellulose (MFC) film. A first web comprising a paper or paperboard substrate is provided. A second web of an MFC film is provided, wherein the MFC film has: a) a content of MFC of 50-100 weight-% based on total dry weight; b) a moisture content of 5-20 weight-%, c) a ratio of a machine direction tensile index and a cross direction tensile index of 0.8-1.4. The first web and the second web are joined using at least one adhesive layer provided between the webs so as to form the laminate. The MFC film of the laminate is further dried to a moisture content of less than 4 weight-%. The invention relates also to a laminate and a packaging material comprising the laminate.

A decorative panel including a substrate material and decorative top layer includes a compressed timber layer with a permanent increased density. The panel is a floor panel including a mechanical coupling so a locking is created in a vertical direction perpendicular to a plane of the coupled panels, and in a horizontal direction perpendicular to coupled edges and in the plane of the coupled panels. The coupling allows coupling by a downward-directed movement where a first edge includes a male coupling part that can be pushed into a recess of a female coupling part to lock in the vertical direction due to a pair of a cooperating heel of the male coupling part and the recess of the female coupling part, wherein the recess is formed by substrate material of the second edge and a resilient element arranged in the substrate material of the second edge.

The present invention relates to a method for producing a laminate comprising a paper or paperboard substrate and a microfibrillated cellulose (MFC) film. A first web comprising a paper or paperboard substrate is provided. A second web of an MFC film is provided, wherein the MFC film has: a) a content of MFC of 50-100 weight-% based on total dry weight; b) a moisture content of 5-20 weight-%, c) a ratio of a machine direction tensile index and a cross direction tensile index of 0.8-1.4. The MFC film is further dried to a moisture content of less than 4 weight-%. The first web and the second web are joined, after the further drying, using at least one adhesive layer provided between the webs so as to form the laminate. The MFC film has a moisture content of less than 4 weight-% at the joining. The invention relates also to a laminate and a packaging material comprising the laminate.

The present invention relates to a method for producing a laminate (8) comprising a paper substrate and a microfibrillated cellulose (MFC) layer. An MFC suspension comprising 25-90 weight-% of MFC and 10-50 weight-% of a filler component is provided. The suspension has a dry content of 2.5-50 weight-%. A wet MFC layer (1) is formed by casting the suspension on a metal belt support (2). A paper substrate having a Gurley Hill air permeability value of less than 10000 s/100 ml is provided and joined with the wet MFC layer positioned on the metal belt support to form a laminate structure (7). The laminate structure positioned on the metal belt support is subjected to water removal to form the laminate. The water removal comprises at least one drying step which comprises drying by at least one non-contact drying device (9), wherein the metal belt support is heated during the at least one drying step. The invention relates also to a laminate and a packaging material comprising

A continuous in-line method for manufacturing a laminated packaging material web, comprising: ink-jet printing a dcor layer on a paperboard layer; drying the dcor layer by exposing the paperboard layer to infrared radiation and a flow of hot air; and laminating at least a further layer to the printed and creased paperboard layer.

The present disclosure relates to a method to produce a coating layer, including applying a coating composition on a surface of a carrier, curing the coating composition to a coating layer, and subsequently applying pressure to the coating layer. The disclosure further relates to a method to produce a building panel, and such a building panel, and to a method to produce a coated foil, and such a coated foil.