Class / Patent application number | Description | Number of patent applications / Date published |
264131000 | Coating with particulate material | 10 |
20080308964 | Method for forming film of silane coupling agent - A method for forming a film of silane coupling agent on a metal surface is provided. The method includes: a step of applying a solution containing a silane coupling agent on the metal surface; a step of drying the metal surface coated with the solution at a temperature in the range of 25 to 150° C. and for a length of time of 5 minutes or less; and a step of water-rinsing the dried metal surface. | 12-18-2008 |
20080315450 | Composition and Method For Manufacturing a Product - A composition for manufacturing a product, comprises: finely subdivided inert materials, a metal oxide, a metal chloride, a resin, a thickening agent, a surfactant; a method for manufacturing a product comprises: mixing a solution of metal chloride with a metal oxide and finely subdivided inert materials, so as to obtain a mixture; adding to said mixture a resin, an a surfactant; pouring said mixture into a mould in such a way as to impregnate a fibre material sheet positioned inside said mould; enabling said mixture to solidify, so as to manufacture said product. | 12-25-2008 |
20090051072 | Method of manufacturing safety cones from recycled materials - A method of manufacturing safety cones from recycled materials is disclosed. Recycled materials are disposed into a molding machine, which turns them into safety cone molds. A dye containing plastic powders, solvent, and colors is coated on the surface of the safety cone mold, rendering a colored safety cone. Therefore, the production cost can be reduced, and the color can stay longer. | 02-26-2009 |
20090102086 | METHOD FOR PRODUCING A COATED THERMOPLASTIC MATERIAL - In a method for producing a coated thermoplastic material, thermoplastic material is fed into a twin-screw extruder to produce a homogenous melt as the thermoplastic material is advanced. While the melt is in plastic state an adhesion promoter for a coating material to be applied later or a small amount of a coating material to be applied later as adhesion promoter is added to the melt which is then transferred to an injection mold and allowed to cure to form a thermoplastic body. The thermoplastic body is then coated with the coating material. | 04-23-2009 |
20110101559 | METHOD OF MAKING A LAMP STAND OR CRAFTWORK - A method of making a lamp stand or other craftwork. The method begins by mixing materials with the following weight ratios: 1-10 kilograms of powdered Magnesia Usta; 1-10 kilograms of liquid magnesium chloride; 1-5 kilograms of glass quartz sand; 7-10 milliliters of activator; 5-50 milliliters of retarder; glass fiber and a paint for tinting. Next, the mixed materials are poured into a molded blowing die of the lamp stand and left within the die to solidify for approximately 3 to 5 hours. Next, the molded lamp stand is removed from the die. French chalk and de-foaming agent may be added to the mixed materials. | 05-05-2011 |
20120228795 | CERAMIC SUBSTRATE SUPPORTING MEMBER AND METHOD OF MANUFACTURING CERAMIC MEMBER - There is provided a ceramic substrate supporting member configured to support a ceramic substrate at a tip portion thereof and used for forming a ceramic member coat on the ceramic substrate to manufacture a ceramic member in a reaction furnace. The ceramic substrate supporting member includes a core formed of graphite, and a supporting member coat formed at a surface including at least the tip portion with a pyrolytic carbon layer interposed between the core and the supporting member coat. | 09-13-2012 |
20140210126 | PROCESS FOR THE MANUFACTURING OF DECORATIVE BOARDS - A process for manufacturing a coated panel. The process can comprise providing a panel of a desired dimension or cutting a panel to a desired dimension. In some embodiments a panel can be provided with joining functionality. A surface of the panel can be coated with a powder and the powder cured to thereby treat a surface of the panel. | 07-31-2014 |
20140319722 | DIGITAL EMBOSSING AND CREASING BEFORE PRINTING - A method of printing and embossing a receiver is disclosed. The method includes depositing an embossing pattern of embossing particles on the receiver, the embossing pattern having an embossing-pattern thickness corresponding to a fixed stack height of at least 30% of the thickness of the receiver, wherein the embossing particles having average diameters greater than the average diameters of the toner particles of the image toner; pressing the receiver between a hard nip roller and a compliant nip roller, the pressure selected so that with a large enough load so that the embossing pattern permanently deforms the receiver; depositing a pattern of image toner on a first side of the receiver, the image toner including toner particles; and fixing the pattern of image toner onto the receiver. | 10-30-2014 |
20150145162 | METHOD FOR MAKING NANOSTRUCTURES - A method of making nanostructures includes following steps. A carbon nanotube structure is suspended, wherein the carbon nanotube structure includes a number of carbon nanotubes orderly aligned. A carbon nanotube composite structure is formed by applying a precoated layer on the carbon nanotube structure, wherein a thickness of the precoated layer on an outer surface of each of the number of carbon nanotubes ranges from about 2 nanometers to about 10 nanometers. The carbon nanotube composite structure is transferred on a substrate and treating the carbon nanotube composite structure with a solution. The carbon nanotube structure is removed by annealing the carbon nanotube composite structure in an annealing temperature from about 500° C. to about 700° C., wherein the precoated layer is softened and contracted. | 05-28-2015 |
20150314530 | MULTI-MATERIAL THREE DIMENSIONAL PRINTER - A layer of a first powder is dispensed in a layer over a build plate. Binder is then selectively applied to hold portions of the layer of first powder together. Unbound first powder is then removed. A second powder is then dispensed in a layer over the build plate and portions of the bound first powder above the build plate. Binder is then selectively applied to hold portions of the second powder together. Unbound second powder is then removed. A third or more different powders can be similarly dispensed and bound to complete a multi-material layer. The process is then be repeated on a next subsequent layer. A curing radiation source can accelerate binding of powder together. Voids can be formed in portions of the layers by dispensing a fugitive material in portions of each multi-material layer. Mechanisms for implementing the printing process are also disclosed. | 11-05-2015 |