| Entries |
| Document | Title | Date |
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| 20080203606 | BIODEGRADABLE COMPOSITION FOR THE PREPARATION OF TABLEWARE, DRINK CONTAINER, MULCHING FILM AND PACKAGE AND METHOD FOR PREPARING THE SAME - The present invention relates to a biodegradable composition for the preparation of table-ware, mulching film and package, which comprises: 2-6% by weight of starch; 35-45% by weight of plant powders; 20-30% by weight of calcium carbonate; 2-7% by weight of sorbitol; 7-13% by weight of polypropylene; 2-5% by weight of polyethylene; 2-6% by weight of coupling agent; 1-2% by weight of defoamer; 2-5% by weight of stearic acid; 2-6% by weight of stearate; 3-6% by weight of glycerine or epoxidized soybean oil; and 60-100 ppm photosensitizer. The present invention also relates to a method for preparing the composition, which comprises: treating a plant waste with a diluent acid, drying and pulverizing, then mixing it with starch, polypropylene, and polyethylene, sorbitol, defoamer, coupling agent, stearic acid, stearate, glycerine and photosensitizer homogeneously; and blending the mixture obtained in a double-screw extruder at a temperature of 160-180° C. to obtain the composition of the present invention. | 08-28-2008 |
| 20080237913 | METHOD FOR STRETCHING POLYMER FILM - A rear end portion of a leading TAC film and a front end portion of a following TAC film are connected using a double-sided adhesive tape and acetone, in order to stretch the TAC films continuously in a tenter. The double-sided adhesive tape is constituted of a base whose material is same as the TAC film and an adhesive layer coated on both surfaces of the base. Acetone is one of solvents used for preparing a dope in the TAC film production. The double-sided adhesive tape is firstly stuck on an upper surface of the rear end portion of the leading TAC film. Acetone is then applied, using a spray, on coating areas of the rear end portion of the leading TAC film. After that, the front end portion of the following TAC film is layered on the rear end portion of the leading TAC film, and the films are pressed and connected. | 10-02-2008 |
| 20080251962 | Multicomponent ceramics powder, method of manufacturing multicomponent ceramics powder, sintered body, and method of manufacturing sintered body - After an alloy powder including W, Cr, at least one of Ti, Zr, and Hf, and at least one of V, Nb, and Ta is produced, the alloy powder, a powdery carbon material, and a catalyst are heat-treated in the presence of a nitrogen gas. The alloy powder is carbonitrided into a multicomponent ceramics powder, and sintered into a sintered body. Alternatively, a powder of a first substance including at least two of Ti, Al, V, Nb, Zr, Hf, Mo, Ta, Cr, and W is molded into a molded body. Then, the surface of the molded body is surrounded by a second substance including a metal element which is not contained in the powder of the first substance, and the molded body is heat-treated in an atmosphere in which N is present. A porous sintered body thus produced is crushed into a multicomponent ceramics powder. | 10-16-2008 |
| 20100258969 | METHOD FOR PRODUCTION OF MOLDED THERMOPLASTIC COMPOSITION ARTICLE - The object of the present invention is to provide a method for producing a molded thermoplastic composition article, which enables the injection molding using a precursor molded body including a plant fiber and a thermoplastic resin while keeping the mechanical properties of the thermoplastic resin. The method for producing a molded thermoplastic composition article includes a chipping process of finely dividing at least one precursor molded body selected from a mat molded body and a board molded body each including a plant fiber and a thermoplastic resin to produce a chip, a non-heated pelletizing process of compressing the chip without heating to produce a pellet, and an injection molding process of injection molding the pellet to produce a molded thermoplastic composition article. | 10-14-2010 |
| 20110101560 | SUBSTRATE AND METHOD OF MANUFACTURING POLYGON FLAKES - A method of forming pigment flakes includes using a deposition substrate having a plurality of regions; some of the regions are raised or lowered so that there is a level difference between each two adjacent regions. A coating deposited onto this substrate breaks along region borders when it is separated from the substrate. In one embodiment, the substrate includes first and second regions, wherein each of the first regions is in an abutting relationship with at least one of the second regions. All the first regions are at a first level and all the second regions are at a second level, and the difference between the first and second levels is greater than a predetermined value. The first and second regions are preferably square-shaped regions for manufacturing square flakes with practically no debris. | 05-05-2011 |
| 20110210469 | PRODUCTION OF USEFUL ARTICLES FROM WASTE MATERIAL - Disclosed is a process of using waste material comprising absorbent material and a thermoplastic material, such as from the manufacture of disposable absorbent articles, to produce useful articles. The process includes shearing the waste material, chopping the waste material, pelleting the waste material, and extruding or injection molding the pelleted material to create a useful article. | 09-01-2011 |
| 20110248423 | Synthetic Mulch and Method of Making Same - A synthetic mulch is disclosed formed of agglomerated plastic material that can be colored to have the look of a natural or organic mulch. The synthetic mulch can be formed from used plastic material, such as polyester, nylon, polypropylene and/or polyethylene, with polyester and/or nylon preferred. | 10-13-2011 |
| 20110260353 | Rapid Dissolve Media - A method for producing a pelletized material includes mixing a media powder with a treated water, the treated water comprising an additive for substantially preventing bacterial contamination, pouring a mixture of the media powder and the treated water on a non-binding surface, spreading the mixture into a wafer, drying the wafer, and grinding the wafer to produce the pelletized material. | 10-27-2011 |
| 20110309543 | HEAD FOR THE APPLICATION OF REINFORCING THREADS ON A DEPOSITION SURFACE - Applicator head for reinforcement yarns ( | 12-22-2011 |
| 20120032369 | METHOD FOR MAKING HYDROPHOBIC ORGANIC FIBER AND PARTICULATE FOR SORBING LIQUID HYDROCARBONS - Methods for making organic fibers for sorbing liquid hydrocarbon spills. The methods include the steps of obtaining unfiberized organic material that has been pretreated with a hydrophobic agent and fiberizing the pretreated unfiberized organic material such that the material is reduced in size to form an organic fiber particulate of a desired size. The fiberizing results in the hydrophobic agent coating all exposed surfaces of the organic fiber particulate to form a substantially hydrophobic organic fiber particulate without the addition of any additional hydrophobic agent. | 02-09-2012 |
| 20120199998 | METHOD FOR THE PRODUCTION OF A FIBER-REINFORCED THERMOPLASTIC POLYMER AND EXTRUSION DIE AND DEVICE FOR THE TEMPERATURE CONTROL A FIBER STRAND IMPREGNATED WITH A POLYMER MELT - A method for the production of a fiber-reinforced, thermoplastic polymer, wherein at least one fiber strand is fed into an extrusion die, wherein the fiber strand is fanned out in the extrusion die, wherein the impregnation of the fiber strand with a polymer melt takes place in the fanned out state, and subsequently the fiber strand impregnated with a polymer melt is extracted from the extrusion die. | 08-09-2012 |
| 20120256341 | METHOD FOR GRANULATING PLASTIC HAVING A HIGH SOFTENING TEMPERATURE - The invention relates to a method for granulating plastic having a high softening temperature, in particular of above 120° C., using a perforated plate for producing strands of molten plastic and a subsequent process chamber containing a process fluid and including a chopping device, from which a mixture of process fluid and granulate is then discharged into a cooling section for cooling said granulate. The process chamber is filled with a process fluid, in particular water, at a temperature of more than 120° C. and at a pressure of over 2 bar, and the mixture of process fluid and granulate, whose pressure will be maintained as it passes through the cooling section, will then be supplied to a separator in which the granulate, which has first been directed through a pressure lock for bringing it down to ambient pressure, will then be separated from the process fluid and discharged. | 10-11-2012 |
| 20120280419 | METHOD AND APPARATUS FOR FLUIDIC PELLETIZATION, TRANSPORT, AND PROCESSING OF MATERIALS - A continuous process wherein a material is melt processed and subsequently pelletized, transported, optionally chemically and/or physically modified, and subsequently optionally defluidized utilizing fluidic processing. The transport fluids and fluid combinations utilize a wide range of process temperatures facilitating enhancement of conditioning, improvement of moisture content, pelletization of hygroscopic, water-sensitive, and water-soluble materials, pelletization of non-polymeric and rheologically non-shear sensitive and marginally shear-sensitive polymeric materials, modification of pellet components through extraction, pelletization of low melting materials, tacky materials, pellet coating, and pellet impregnation otherwise difficult and challenging using conventional technologies. | 11-08-2012 |
| 20120280420 | ENVIRONMENTALLY FRIENDLY ANIMAL LITTER - A method of making an animal litter that includes geopolymerized ash is described herein. Generally, the animal litter is made from a quantity of a pozzolanic ash mixed with a sufficient quantity of water and an alkaline activator to initiate a geopolymerization reaction that forms geopolymerized ash. After the geopolymerized ash is formed, it is dried, broken into particulates, and sieved to a desired size. These geopolymerized ash particulates are used to make a non-clumping or clumping animal litter. Odor control may accomplished with the addition of a urease inhibitor, pH buffer, an odor eliminating agent, and/or fragrance. | 11-08-2012 |
| 20130069270 | GRANULATING METHOD AND GRANULATING DEVICE - A granulating method is a method in which powder containing a water-soluble component is granulated. In the disclosed granulating method, a dispersion element, wherein fine water droplets are dispersed in superheated steam, is expelled from a nozzle, and thus the dispersion element and powder in a flowing state come into contact with one another. It is preferable that the mass ratio of superheated steam contained in the dispersion element, as a mass ratio found from the theoretical flow amount of superheated steam expelled from the nozzle, and the actual flow amount of water supplied to the nozzle, be set in a range of 20-70 mass %. | 03-21-2013 |
| 20130119575 | Plastic Waste Recycling Apparatus and System - A process and apparatus for recycling plastic waste material, including shredding the waste material in a universal shredder apparatus and washing the waste material. The apparatus and method includes a dryer apparatus for drying substantially all moisture from the plastic, and an agglomeration process that is performed in an agglomeration apparatus which receives the dry film material from the dryer and creates a course mix of chopped material. Multiple in-line extruders process the cleaned plastic with filter screens positioned after each extruder to mix and filter the plastic into a final uniform mixed product harvested by a pelletizer. | 05-16-2013 |
| 20130320585 | Method For Preparing R-FE-B-Based Rare Earth Magnetic Powder For A Bonded Magnet, Magnetic Powder Prepared By The Method, Method For Producing A Bonded Magnet Using The Magnetic Powder, And Bonded Magnet Produced By The Method - A method of preparing R—Fe—B-based rare earth magnetic powder for a bonded magnet and magnetic powder prepared thereby, and a method of manufacturing a bonded magnet using magnetic powder and a bonded magnet manufactured thereby. Further, a method of preparing R—Fe—B-based rare earth magnetic powder having improved magnetic properties including grinding rare earth sintered magnet products as a raw material, performing a hydrogenation process where a ground product is charged into a furnace, and the furnace is then filled with hydrogen and a temperature of the furnace is increased, performing a disproportionation process where the temperature of the furnace is further increased in the same hydrogen atmosphere above, performing a desorption process where hydrogen is exhausted from an inside of the furnace, and performing a recombination process where hydrogen in the inside of the furnace is exhausted, and magnetic powder prepared thereby, and a method of manufacturing a bonded magnet. | 12-05-2013 |
| 20140159274 | COMPRESSION MOLDING METHOD AND REINFORCED THERMOPLASTIC PARTS MOLDED THEREBY - A fiber reinforced part is formed from a compression molded thermoplastic resin reinforced with individual fibers of differing lengths randomly oriented substantially throughout the part. | 06-12-2014 |
| 20140167312 | METHOD OF CURING THERMOPLASTIC POLYMER FOR SHAPE MEMORY MATERIAL - A method of preparing a cured thermoplastic material includes curing a thermoplastic polymer having a thermal decomposition temperature greater than or equal to about 200° C., at a temperature of about 200° C. to about 400° C., for a total time of less than or equal to 200 hours. A method of making a shape memory material also includes curing a thermoplastic polymer to prepare a cured thermoplastic material. | 06-19-2014 |
| 20140167313 | A PELLET MILL WITH AN IMPROVED FEED SYSTEM AND A METHOD OF FORMING PELLETED MATERIAL - The invention pertains to a pellet mill | 06-19-2014 |
| 20140197564 | METHOD FOR PRODUCING FINE PARTICLES - Provided is a method for producing fine particles in which fine particles having a uniform particle size distribution can be simply obtained with a low environmental load. The present invention relates to a method for producing fine particles including the step of preparing minute pieces by cutting a resin film at equal intervals into a width of 0.05 to 500 μm. | 07-17-2014 |
| 20140265002 | CELLULOSIC MICROPOWDER PRODUCTION SYSTEM - An improved process is provided for reducing cellulosic biomass into air suspendable micropowder. Although the process is particularly suitable for processing empty fruit bunches of oil palms, it is adaptable to most cellulosic biomass. The incoming biomass has a water content of around 50% and is reduced to centimeter scale pieces by a chipper or similar device. These pieces are then processed by a tandem line of four pairs of grooved rollers each successive roller having a larger number of grooves. This process squeezes moisture from the biomass and reduces the material into millimeter scale pieces. After an optional drying stage, the material is fed into a terrace line of three or four essentially smooth rollers which squash the material and reduce the particle size into a micrometer scale. Finally, the material is suspended in an air stream and fractionated by a cyclone and bag filter system. | 09-18-2014 |
| 20140265003 | MANUFACTURING METHOD FOR STONE SPEAKER - A manufacturing method for a stone speaker is disclosed. The stone speaker is placed in a garden and blended with the environment. Raw stones of various sizes and colors are crashed and provided as a kind of material for the stone speaker. The manual painting spray step is neglected. The stone speakers has an appearance like real natural stone and no disadvantages of the stone speakers made by the manual painting spray step. | 09-18-2014 |
| 20140339726 | METHOD FOR RECYCLING WASTE THERMOPLASTIC MATERIALS AND USING THIS RECYCLED THERMOPLASTIC IN COMPOSITE MATERIAL PRODUCTION - This invention is related to a method for production of high strength and low cost thermoplastic composite materials by processing and treating waste plastic materials with some minerals. The object of the invention is to embody a recycling method wherein it contains high amounts of additives and therefore composite materials with high strength properties are obtained. Another object of the invention is to embody a recycling method wherein high amounts of additives are used in the production and the machines used in the production are not damaged. | 11-20-2014 |
| 20140353871 | DRYING-/DEGASSING DEVICE AND ALSO DEVICE AND METHOD FOR THE DIRECT PRODUCTION OF MOULDED ARTICLES FROM POLYESTER MELTS - The present invention relates to a drying-/degassing device ( | 12-04-2014 |
| 20150130107 | RECYCLING METHOD OF WASTE FISHNET - A recycling method of waste fishnet is provided. The waste fishnet is processed with steps of cutting, removing impurities, cleaning, and drying to form fishnet chips. The recycling method of waste fishnet includes the following steps. The fishnet chips are mixed with nylon-66, wherein the fishnet chips are of 70% by weight, and nylon-66 is of 30% by weight. The mixture is heated and molten. The molten mixture is then processed with the step of granulation. The grains are then processed with the step of spinning. Thereby, the waste fishnet can be recycled and transferred into useful plastic materials. | 05-14-2015 |
| 20150360393 | EXTRUSION PELLETIZER FOR POLYCARBONATE RESIN AND METHOD FOR EXTRUSION-PELLETIZING POLYCARBONATE RESIN - An extrusion pelletizer for a polycarbonate resin includes: an extruder; a cooling unit; and a cutter. The extruder includes a cylinder top, a first adapter, a polymer filter unit, a second adapter, and a die head. The polymer filter unit includes a plurality of stick-shaped filter elements therein. A temperature of the second adapter is set to be lower than a temperature of the polymer filter unit. The cooling unit and the cutter are disposed under an atmosphere in which air cleanliness defined in accordance with JIS B9920 is any one of class 1 to class 7. | 12-17-2015 |
| 20150367535 | Post-Consumer Scrap Film Recycling System and Process - A system for processing a supply of post-consumer scrap linear low density or low density polyethylene film into near-virgin quality blown film product. The system includes tearing the supply of film in a shredder, wherein the surface area of the film is exposed, including delaminating the film. The torn supply of film is washed in a hot water bath including a surfactant. The film is agitated in the bath containing the surfactant wherein contaminants on the film are removed from the film. The washed film is ground into smaller pieces and additional washing of the ground film in a rotating friction washer occurs wherein additional contaminants are removed from the film. The ground film is then dried in a dryer and compacted in a compactor without addition of water into granulated objects of near-virgin quality blown film product. | 12-24-2015 |
