Patent application number | Description | Published |
20110318507 | METHOD FOR MANUFACTURING PANELS AND PANELS OBTAINED THEREBY - A method for manufacturing coated panels of the type including at least a substrate and a top layer, provided on the substrate, with a motif, may involve providing a synthetic material layer on the substrate, and providing a relief on the surface of the synthetic material layer. The relief may show a pattern of recesses and/or protrusions. The pattern may be at least partially determined using a light-projection technique. | 12-29-2011 |
20120213973 | METHODS FOR MANUFACTURING PANELS AND PANEL OBTAINED HEREBY - A method for manufacturing panels of the type which is at least composed of a substrate and a top layer provided on the substrate, the top layer includes at least two material layers, amongst which a print, the method may involve applying the two material layers, such that the print is performed directly on the substrate and the print forms at least a portion of a printed decor. At least one of the two material layers may include a mixture having at least a thermally curing component and a radiation-curing component. | 08-23-2012 |
20130062006 | PANEL AND METHODS FOR MANUFACTURING PANELS - A panel may include at least a substrate and a top layer provided on the substrate. The top layer may include a vinyl-based synthetic material layer. The substrate may be a wood-based substrate. A primer may be provided between the substrate and the vinyl-based synthetic material layer. | 03-14-2013 |
20130067842 | FLOOR PANEL AND METHODS FOR MANUFACTURING FLOOR PANELS - In a method for manufacturing floor panels that have at least a substrate and a top layer provided on the substrate, the top layer including a thermoplastic layer that is translucent or transparent, the method may involve providing the top layer, including the thermoplastic layer, on the substrate. The method may also involve heating at least the thermoplastic layer, and structuring the thermoplastic layer using a mechanical press element. | 03-21-2013 |
20140020820 | METHODS FOR MANUFACTURING FLOOR PANELS - In a method for manufacturing floor panels that have at least a substrate and a top layer provided on the substrate, the top layer including a thermoplastic layer that is translucent or transparent, the method may involve providing the top layer, including the thermoplastic layer, on the substrate. The method may also involve heating at least the thermoplastic layer, and structuring the thermoplastic layer using a mechanical press element. | 01-23-2014 |
20140290158 | FLOOR PANEL - In a method for manufacturing floor panels that have at least a substrate and a top layer provided on the substrate, the top layer including a thermoplastic layer that is translucent or transparent, the method may involve providing the top layer, including the thermoplastic layer, on the substrate. The method may also involve heating at least the thermoplastic layer, and structuring the thermoplastic layer using a mechanical press element. | 10-02-2014 |
20150056416 | LAMINATE PANEL, METHOD FOR MANUFACTURING A LAMINATE PANEL AND PRESS ELEMENT TO REALIZE THE METHOD - Laminate panel, which consists at least of a substrate, a decor and a transparent synthetic material layer, wherein the synthetic material layer is provided with a relief with elongate recesses, wherein the recesses have a cross-section with inclined flank portions, the inclination of which is more than 60° and less than 90°, and that the maximum depth over which said flank portions extend is larger than the maximum distance between the respective flank portions, measured in transverse direction and parallel to the plane of said panel. | 02-26-2015 |
Patent application number | Description | Published |
20140066296 | Hydroconversion Multi-Metallic Catalysts and Method for Making Thereof - The invention relates to a self-supported mixed metal sulfide (MMS) catalyst for hydrotreating hydrocarbon feedstock and to a method for preparing the catalyst. The MMS catalyst has molar ratios of metal components Ni:Mo:W in a region defined by five points ABCDE of a ternary phase diagram, and wherein the five points ABCDE are defined as: A (Ni=0.72, Mo=0.00, W=0.25), B (Ni=0.25, Mo=0.00, W=0.75), C (Ni=0.25, Mo=0.25, W=0.50), D (Ni=0.60, Mo=0.25, W=0.15), E (Ni=0.72, Mo=0.13, W=0.15). | 03-06-2014 |
20140066298 | Hydroconversion Multi-Metallic Catalysts and Method for Making Thereof - The invention relates to a method for preparing a self-supported mixed metal sulfide (MMS) catalyst for hydrotreating hydrocarbon feedstock. The method comprises mixing a sufficient amount of a nickel (Ni) metal precursor, a sufficient amount of a molybdenum (Mo) metal precursor, and a sufficient amount of a tungsten (W) metal precursor to produce a catalyst precursor having a molar ratio Ni:Mo:W in relative proportions defined by a region of a ternary phase diagram showing transition metal elemental composition in terms of nickel, molybdenum, and tungsten mol-%, wherein the region is defined by five points ABCDE and wherein the five points are: A (Ni=0.72, Mo=0.00, W=0.28), B (Ni=0.55, Mo=0.00, W=0.45), C (Ni=0.48, Mo=0.14, W=0.38), D (Ni=0.48, Mo=0.20, W=0.33), E (Ni=0.62, Mo=0.14, W=0.24); and sulfiding the catalyst precursor under conditions sufficient to convert the catalyst precursor into a sulfide catalyst. | 03-06-2014 |
Patent application number | Description | Published |
20150306578 | METHOD OF PREPARING HIGH ACTIVITY HYDROTREATING CATALYSTS - This disclosure relates to supported multi-metallic catalysts for use in the hydrotreating of hydrocarbon feeds, as well as a method for preparing such catalysts. The catalysts are prepared from a catalyst precursor comprised of at least one Group VIB metal, at least one Group VIII metal and an organic acid. The catalyst precursor is thermally treated to partially decompose the organic acid, then sulfided. The catalysts have a high carbon-as-carboxyl to total carbon ratio (C | 10-29-2015 |
20150306591 | HIGH ACTIVITY HYDROTREATING CATALYSTS - This disclosure relates to supported multi-metallic catalysts for use in the hydrotreating of hydrocarbon feeds, as well as a method for preparing such catalysts. The catalysts are prepared from a catalyst precursor comprised of at least one Group VIB metal, at least one Group VIII metal and an organic acid. The catalyst precursor is thermally treated to partially decompose the organic acid, then sulfided. The catalysts have a high carbon-as-carboxyl to total carbon ratio (C | 10-29-2015 |
20150307789 | HIGH ACTIVITY HYDROTREATING CATALYSTS AND PROCESSES USING THE SAME - This disclosure relates to supported multi-metallic catalysts for use in the hydrotreating of hydrocarbon feeds. The catalysts are prepared from a catalyst precursor comprised of at least one Group VIB metal, at least one Group VIII metal and an organic acid. The catalyst precursor is thermally treated to partially decompose the organic acid, then sulfided. The catalysts have a high carbon-as-carboxyl to total carbon ratio (C | 10-29-2015 |