A floor, wall, or ceiling panel has a base made of a wood material and an upper veneer. The base and the veneer are hot-pressed together while incorporating a resin layer. During the pressing process, pores, cracks, and/or gaps in the veneer are filled with resin. In particular, the pressing process is carried out such that the veneer is saturated with resin, and the resin can be seen on the surface of the veneer after the pressing process The adhesion of the veneer to the base and the smoothing of the veneer are thus carried out in one operation.

A floorboard, includes a carrier plate and a veneer arranged on a topside of the carrier plate, wherein the carrier plate and the veneer are connected with each other via a resin, wherein an edge strip made of the resin is provided on at least two side margins of the veneer, and wherein a surface of the edge strip extends in a same plane as a surface of the veneer.

The present invention relates to a process for the batchwise or continuous, preferably continuous production of single-layer lignocellulose-based boards or of multilayer lignocellulose-based boards with a core and with at least one upper and one lower outer layer, comprising the following steps: a) mixing of the components of the individual layer(s), b) layer-by-layer scattering of the mixtures to give a mat, c) compaction after the scattering of the individual layer(s), d) application of a high-frequency electrical field, during and/or after the compaction and thermal hardening of the binder(s), e) then optionally hot pressing, and f) cooling the lignocellulose material,
where, in step a),
for the core or the single layer, the lignocellulose particles A) [component A)] are mixed with B) from 0 to 25% by weight of expanded plastics particles with bulk density in the range from 10 to 150 kg/m.sup.3 [component B)], C) from 1 to 15% by weight of one or more binders selected from the group consisting of aminoplastic resin and organic isocyanate having at least two isocyanate groups [component C)], D) from 0 to 3% by weight of ammonium salts [component D)], E) from 0 to 5% by weight of additives [component E)] and F) from 0.1 to 3% by weight of alkali metal salts or alkaline earth metal salts from the group of the sulfates, nitrates, halides and mixtures of these [component F)],
and optionally for the outer layers, the lignocellulose particles G) [component G)] are mixed with H) from 1 to 15% by weight of one or more binders selected from the group consisting of aminoplastic resin and organic isocyanate having at least two isocyanate groups [component H)], I) from 0 to 2% by weight of ammonium salts [component I)], J) from 0 to 5% by weight of additives [component J)] and K) from 0.1 to 3% by weight of alkali metal salts or alkaline earth metal salts from the group of the sulfates, nitrates, halides and mixtures of these [component K)],
wherein at the juncture Z the temperature of the layer of the core or of the single layer is more than 90 C., and this temperature is reached in less than 40 s/mm.Math.d after the application of the high-frequency electrical field, where d is the thickness of the sheet of lignocellulose material at the juncture Z.

The disclosure relates to a synthetic closure for a product-retaining container constructed for being inserted and securely retained in a portal-forming neck of said container, said closure comprising at least a core member comprising at least one thermoplastic polymer, and at least one peripheral layer at least partially surrounding and intimately bonded to at least one surface of the core member, said peripheral layer comprising at least one thermoplastic polymer, wherein the synthetic closure is formed by extrusion, and at least one of the core member and the peripheral layer comprises a plurality of cells, and wherein the synthetic closure comprises cork powder.

A polypropylene-based foam sheet (100) of the present invention is a polypropylene-based foam sheet including a polypropylene-based resin; and an inorganic filler, in which the inorganic filler includes one or more selected from talc, mica, and silica, and a content of the inorganic filler in the polypropylene-based foam sheet is equal to or more than 15 parts by mass and equal to or less than 65 parts by mass when a total amount of the polypropylene-based resin and the inorganic filler is set to 100 parts by mass.

Disclosed is a floor covering insulation for a motor vehicle with a multi-layer, preferably flocked, fibre insulation which, by a soft/smooth coupling layer to the wear surface, realises a sound insulation floor covering with improved acoustic and mechanical-physical properties, with a simultaneous reduction in weight if possible. Also disclosed is a method for manufacturing the sound insulation.

A hollow article is provided, comprising a first wall and a second wall, where the first and second walls are positioned in opposing relationship and define a space therebetween. A plurality of protruding structural pillars extend from the second wall and span the space, each of the structural pillars having an end surface integrally bonded with an inside surface of the first wall.

Disclosed is a floor covering insulation for a motor vehicle with a multi-layer, preferably flocked, fibre insulation which, by a soft/smooth coupling layer to the wear surface, realises a sound insulation floor covering with improved acoustic and mechanical-physical properties, with a simultaneous reduction in weight if possible. Also disclosed is a process for manufacturing the sound insulation.

Waterproof engineered floor and wall planks have a veneer layer bonded with a plastic composite core, and an underlayer, preferably an underlayer of cork.

A process for applying a color pattern or design to a cork tile includes providing a release film, printing a design layer on the release film, applying a glue layer on the design layer so that the design layer is between the glue layer and the release film, and laminating the design layer and glue layer onto a cork top surface of the cork tile using a heated laminating machine, so that the glue layer and the design layer are released from the release film and form the color pattern or design on the cork top surface.