Class / Patent application number | Description | Number of patent applications / Date published |
264015000 | SPHEROIDIZING OR ROUNDING OF SOLID PARTICLES | 9 |
20080237907 | Process for the preparation of a polymerizable dental composition - A process for the preparation of a polymerizable dental composition comprising the steps of
| 10-02-2008 |
20090267250 | Fuel Cell Separator Material and Process of Producing the Same - A fuel cell separator material which exhibits excellent electrical conductivity, high gas impermeability, high strain at break, and excellent strength, and a process of producing the same are disclosed. The fuel cell separator material includes a graphite/cured resin molded product obtained by binding spherical natural graphite particles with a thermosetting resin, the spherical natural graphite particles being prepared by spheroidizing natural flake graphite having an average particle diameter of 1 to 50 μm by dry impact blending, and having an average particle diameter of 20 to 100 μm, a particle density measured in water of 2 g/cm | 10-29-2009 |
20120256337 | CATHODE ACTIVE MATERIAL PRECURSOR PARTICLE, METHOD FOR PRODUCING THEREOF AND METHOD FOR PRODUCING CATHODE ACTIVE MATERIAL FOR LITHIUM SECONDARY BATTERY - The cathode active material precursor particle, which forms, through incorporation of lithium thereinto, a cathode active material particle for use in a lithium secondary battery, the cathode active material particle containing a lithium complex oxide having a layered rock salt structure, is characterized in that the precursor particle has an aspect ratio, which is a ratio of long axis diameter to short axis diameter, of 1.0 or more and less than 2 and is formed so that the (003) planes of the lithium-incorporated cathode active material particle are substantially uniaxially oriented. | 10-11-2012 |
20120299207 | SYNTHETIC AMORPHOUS SILICA POWDER AND METHOD FOR PRODUCING SAME - The synthetic amorphous silica powder of the present invention is characterized in that it comprises a synthetic amorphous silica powder obtained by applying a spheroidizing treatment to a granulated silica powder, and by subsequently cleaning and drying it so that the synthetic amorphous silica powder has an average particle diameter D | 11-29-2012 |
20130009331 | PROCESS FOR PRODUCTION OF COMPOSITE FINE PARTICLES WITH HETEROGENEOUS SURFACES - Provided is a process for production of composite fine particles with heterogeneous surfaces. The process ensures a high productivity and enables a voluntary control of particle diameters. Further, the process imposes no restrictions on heterogeneous substances added for functional expression, and allows a heterogeneous substance to be encapsulated in central portions of composite fine particle spheres. A composite film obtained by laminating two or more kinds of films is cut into minute pieces, followed by melting the same to obtain spherical minute pieces. Particularly, liquid films are separately formed with two or more kinds of liquids containing polymerizable monomers. Further, two or more kinds of films can thereby be obtained through polymerization. The two or more kinds of films thus obtained are then laminated to further allow polymerization to take place, thus obtaining the composite film. | 01-10-2013 |
20130113129 | Enzyme Delivery Systems and Methods of Preparation and Use - This invention relates to coated digestive enzyme preparations and enzyme delivery systems and pharmaceutical compositions comprising the preparations. This invention further relates to methods of preparation and use of the systems, pharmaceutical compositions and preparations to treat persons having ADD, ADHD, autism, cystic fibrosis and other behavioral and neurological disorders. | 05-09-2013 |
20130241094 | PREPARATION METHOD FOR ASPHALT-BASED SPHERICAL ACTIVATED CARBON WHICH REQUIRES NO INFUSIBILIZATION PROCESS - The present invention is a preparation method for asphalt-based spherical activated carbon which requires no infusibilization process. Placing coal tar asphalt into a melting device; introducing compressed air of 0.1 MPa-0.5 MPa into the device and stirring until a melting temperature of 280° C.-350° C. is reached; continuing for 2-8 hours until the base material has a softening point of 200° C.-260° C.; after cooling down, pulverizing the base material to obtain asphalt powder. Obtaining 34%-79% by mass of carbon powder, 1%-10% by mass of binder, and 20%-65% by mass of the asphalt powder and then forming spherical particles with a diameter of 0.5 mm-5 mm with the carbon powder, the binder and the asphalt powder at room temperature. Introducing the spherical particles of asphalt directly into an asphalt carbonization furnace for carbonization at a temperature of 600° C.-900° C. under protection of an inert gas to obtain asphalt spherical carbon. Asphalt spherical carbon is subject to activation treatment to obtain asphalt spherical activated carbon. The preparation method of the present invention reduces processing difficulty and production costs significantly. | 09-19-2013 |
20140035180 | SINGLE STAGE LUTEIN ESTER EXTRACTION FROM TAGETES SPECIES-MARIGOLD FLOWER MEAL - A single stage straight forward process for extraction and isolation of lutein ester from the dried petals of marigold flowers Tagetes species using the carbondioxide as the supercritical fluid was developed. The pressure maintained for the extraction was up to 625 bar and at temperature up to 750 Centigrade. Lutein ester of high strength and purity up to 70% was achieved for the first time in single stage from the dried petals of marigold flowers-Tagetes species while enrichment of the lutein ester content up to 98% was achieved by crystallization of the lutein ester obtained from supercritical carbon dioxide extract (SCFE). The high strength and purified lutein ester isolated by supercritical fluid-single stage extraction process are free from saturated fat, oil, waxy impurities and serve as a safe source of nutritional supplement for human consumption and color additive for human foods. | 02-06-2014 |
20140042654 | FULVESTRANT NANOSPHERE/MICROSPHERE AND PREPARATIVE METHOD AND USE THEREOF - Fulvestrant nanosphere/microsphere and preparation method and use thereof are provided in the present invention. The carrier material of the fulvestrant nanosphere/microsphere is methoxy ended polyethylene glycol-polylactic acid block copolymer. The nanosphere/microsphere is prepared by solvent-nonsolvent method, in-liquid drying method and/or spray drying method, and has the features of high drug loading and high encapsulation efficiency, controllable release of medicine and no irritant to application site or blood vessel. The fulvestrant nanosphere/microsphere can be used to treat metastatic advanced breast cancer in post-menopausal woman. | 02-13-2014 |