Class / Patent application number | Description | Number of patent applications / Date published |
252079000 | Carboxylic organic compounds containing | 10 |
20090289216 | MICROCAPSULES - The present invention concerns microcapsules comprising a capsule core, a capsule wall and also, disposed on the outer surface of the capsule wall, a polyelectrolyte having an average molecular weight in the range from 500 g/mol to 10 million g/mol, the capsule wall being constructed from | 11-26-2009 |
20110049416 | METHOD FOR PRODUCING HETEROGENEOUS COMPOSITES - A method for selecting materials and processing conditions to prepare a heterogeneous structure in situ via the reaction of a homogeneous mixture of a reactive organic compound and a filler, which may then optionally be sintered. The method is employed to provide a heterogeneous composite possessing exceptionally high thermal and/or electrically conductivities for a given concentration of conductive filler. The choice of materials as well as processing conditions employed, as will be described below, have a strong effect on the rate domain formation/heterogeneity of the structure formed, the extent of filler particle-particle interactions within filler-rich domains, and ultimately the thermal and/or electrical conductivity. Proper choice of these conditions can lead to composites having enhanced properties at a reduced bulk filler concentration. | 03-03-2011 |
20110108758 | Method for Making Phase Change Aggregates From a Microencapsulated Phase Change Material Liquid Emulsion - The present invention provides a method of producing manufactured aggregates from a mPCM slurry, by combining a cementitious binder with the slurry in an agglomeration process. Also, other materials may be introduced (e.g., CaO). The agglomerated feed mix then goes through a curing and classification process to meet the size criteria of the end product. The invention also provides a method of manufacturing PCM aggregates that are substantially fire retardant by mixing the PCM particles with magnesium hydroxide or aluminum hydroxide. Water may be added to assure uniform distribution of particles with the hydroxide particles. Alternatively, the hydroxides may be obtained in situ by mixing magnesium oxide or aluminum oxide with water prior to mixing with the PCM particles. | 05-12-2011 |
20120025133 | HEAT DISSIPATION COMPOSITION - A heat dissipation composition includes a hydroxy function group contained double-bond substance (such as 2-hydroxybenzophenone, 2-hydroxydibenzoacid, and alkyl 2-cyano-3,3-diphenylacrylate) formed of aromatic hydrocarbons having precursor of benzene, which is mixed with a resin-based coating agent and a diluting agent at predetermined ratios for application on a surface of a heat dissipater to facilitate heat dissipation, whereby when the heat dissipater receives heat to be dissipated, the double-bond substance absorbs the heat and induces displacement to form a resonance structure so as to more efficiently dissipate the heat and when the heat is dissipated, the substance restores the double-bond condition thereby realizing improvement of efficiency of heat dissipation. | 02-02-2012 |
20120112122 | MICROCAPSULES WITH POLYVINYL MONOMERS AS CROSSLINKER - The present invention relates to microcapsules comprising a capsule core and a capsule wall, where the capsule wall is constructed from | 05-10-2012 |
20120175549 | THERMALLY-CONDUCTIVE ORGANIC ADDITIVE, RESIN COMPOSITION, AND CURED PRODUCT - The present invention provides a thermally-conductive organic additive which (i) is an organic polymer, unlike a thermally-conductive inorganic filler such as ceramic, metal and a carbon material, (ii) is capable of imparting thermal conductivity to plastic by being added thereto, (iii) can reduce the weight of a composition even when added to a resin in a large amount, without causing abrasion on molds and deteriorating an electrical insulation property of the composition, and (iv) provides the composition with excellent molding processability. The present thermally-conductive organic additive includes a liquid crystalline thermoplastic resin which has a mainly-chain structure, wherein a main chain of the liquid crystalline thermoplastic resin contains mainly a repeating unit represented by the general formula (1): | 07-12-2012 |
20150299077 | CATALYSTS AND METHODS FOR ALCOHOL DEHYDRATION - Provided is a process for preparing a diaryl ether compound through the dehydration of an aromatic alcohol compound in the presence of a dehydration catalyst. The dehydration catalyst is an oxide of a heavy rare earth element, wherein the heavy rare earth element is terbium, dysprosium, holmium, erbium, thulium, ytterbium, lutetium, or mixtures thereof. | 10-22-2015 |
20150376489 | THERMALLY ADAPTIVE DUCTILE CONCRETE - A Thermally Adaptive Ductile Concrete (PCM-ECC) having a tensile ductility ceramic with 5 times the thermal resistance, 2 times the specific heat capacity, and 400 times the tensile strain capacity of regular concrete. | 12-31-2015 |
20160040054 | METHODS FOR ORGANIC NUCLEATING AGENTS - The invention provides phase change material comprising organic phase change materials comprising a miscible organic nucleating material, seed crystal or organic nucleating agent to minimize supercooling during the crystallization of the phase change material. The miscible organic material acting as an organic nucleating material, seed crystal or organic nucleating agent, is in sufficiently small enough ratios so as not to interfere with the latent heat properties of the phase change material, but amounts sufficient to inhibit the appearance of supercooling. The organic nucleating material, seed crystal or organic nucleating agent comprises a polyolefin or polyalkene, or a polyethylene or a polypropylene, or a nanoparticle or a microcapsule thereof. The invention provides an article of manufacture, a coating, a latent heat storage unit, a liquid, a gel, an antifreeze fluid, a fluid, an ink, an oil, a lubricant, a sealant, a paint, a textile, a cloth, or a bedding. | 02-11-2016 |
20190148167 | ETCHING GAS MIXTURE, METHOD OF FORMING PATTERN BY USING THE SAME, AND METHOD OF MANUFACTURING INTEGRATED CIRCUIT DEVICE BY USING THE ETCHING GAS MIXTURE | 05-16-2019 |