| 27th week of 2012 patent applcation highlights part 43 |
| Patent application number | Title | Published |
|---|
| 20120171474 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article includes a substrate, a hydrophobic layer formed on the substrate. The hydrophobic layer includes a first layer portion formed on the substrate and a second layer portion formed on the first layer portion, the first layer portion is a CN | 2012-07-05 |
| 20120171475 | ADHESIVE SHEET AND METHOD FOR MANUFACTURING ADHESIVE SHEETS - A method for manufacturing an adhesive sheet according to the present invention is a method for manufacturing an adhesive sheet including a long peeling base material | 2012-07-05 |
| 20120171476 | ANTI-FOGGING ARTICLE AND ANTI-FOGGING AGENT COMPOSITION - To provide an anti-fogging article having excellent anti-fogging performance and further having excellent durability, and an anti-fogging agent composition. An anti-fogging article comprising a substrate and a water-absorptive crosslinked resin layer formed on the surface of the substrate, wherein the water-absorptive crosslinked resin is a crosslinked resin with a saturated water absorption of at least 45 mg/cm | 2012-07-05 |
| 20120171477 | METHOD OF FABRICATING A COMPOSITE STRUCTURE WITH A CONDUCTIVE SURFACE - A method of fabricating a composite structure having a conductive surface is disclosed herein. The composite structure is formed by laminating a self-surfacing, conductive prepreg to one or prepreg plies or tapes to form a layup. The self-surfacing, conductive prepreg comprises a conductive surfacing film with a conductivity of less than 20 milliOhms formed on at least one surface of a prepreg ply or tape. Furthermore, the self-surfacing, conductive prepreg is suitable for use in an Automated Fiber Placement (AFP) process. | 2012-07-05 |
| 20120171478 | FLUORINATED SAG CONTROL AGENT AND USE THEREOF - The present disclosure is directed to a sag control agent comprising a reaction product of an isocyanate and a fluorinated amine. This disclosure is further directed to a coating composition comprising the sag control agent. This disclosure is also directed to a process of forming a sag-free coating layer on a substrate. | 2012-07-05 |
| 20120171479 | INTERMEDIATE FILM FOR LAMINATED GLASS, AND LAMINATED GLASS - The present invention provides an interlayer film for laminated glass which provides a laminated glass with low Tts and high visible transmittance. | 2012-07-05 |
| 20120171480 | ADHESIVE COMPOSITION AND OPTICAL MEMBER USING THE SAME - An adhesive composition and an optical member using the same, the adhesive composition providing an adhesive having a storage modulus of about 8×10 | 2012-07-05 |
| 20120171481 | OPTICALLY CLEAR ADHESIVE FOR DICING DIE BONDING FILM - An optically clear adhesive, a dicing die bonding film, and a semiconductor device, the optically clear adhesive including a curing agent; and an acrylic copolymer, the acrylic copolymer including an alkyl group, a hydroxyl group, and at least one of a phosphate group and a silane group. | 2012-07-05 |
| 20120171482 | ADHESIVE COMPOSITION AND OPTICAL MEMBER USING THE SAME - An adhesive composition and an optical member using the same, the adhesive composition including an acrylic resin; an isocyanate cross-linking agent; and a carbodiimide cross-linking agent, wherein the adhesive composition exhibits a creeping distance of about 100 μm or less when the composition attached to a glass substrate with a bonding area of about 1.5 cm×1.5 cm is left at about 22° C. and about 50% RH for about 3 days and is subjected to a load of about 10 gf/mm | 2012-07-05 |
| 20120171483 | USE OF ADHESIVE TAPES FOR BONDING OPTICAL COMPONENTS - Optical components are bondable by means of an adhesive tape that has at least one layer of a pressure-sensitive adhesive compound on basis of a polyacrylate having a weight-averaged molecular weight Mw in the range of 200000=M | 2012-07-05 |
| 20120171484 | Dual Crosslinked Tackified Pressure Sensitive Adhesive - Tackfied PSAs and tapes comprising a copolymer based on an acrylic backbone, with a glycidyl monomer, unsaturated carboxylic acid monomer and a tackifier, said adhesives being dual curable and having combination of outstanding peel adhesion on the LSE substrates, high temperature shear performance, excellent stress relieving properties and excellent converting properties. | 2012-07-05 |
| 20120171485 | METAL AND METALLIZED FIBER HYBRID WIRE - Conductive metal and metallized fiber hybrid wires are disclosed, wherein such wires have a central member and a peripheral member and comprise at least one conductive metallized fiber. The peripheral member comprises (i) at least one conductive metal filament; and (ii) optionally, at least one conductive metallized fiber. The central member comprises (i) at least one non-metallized fiber; (ii) at least one conductive metallized fiber; (iii) at least one conductive metal filament; or (iv) combinations thereof. | 2012-07-05 |
| 20120171486 | Biosoluble inorganic fiber - An inorganic fiber having the following composition: 71 wt % to 80 wt % of SiO | 2012-07-05 |
| 20120171487 | BxCyNz nanotube formation via the pressurized vapor/condenser method - Nanotube filaments comprising carbon, boron and nitrogen of the general formula B | 2012-07-05 |
| 20120171488 | SHEETS INCLUDING FIBROUS AEROGEL AND METHOD FOR PRODUCING THE SAME - Disclosed herein is a method for producing a sheet including a silica aerogel, the method including (S1) gelling a water glass solution in a mixture of an alcohol and water to prepare a wet gel, (S2) hydrophobically modifying the surface of the wet gel with a non-polar organic solvent, an organosilane compound and an alcohol, (S3) dissolving the hydrophobically modified silica gel and a polymer in an aprotic organic solvent to prepare an electrospinning solution, and (S4) electrospinning the electrospinning solution to produce a fiber web including a silica aerogel, and a sheet in which a polymer and a silica aerogel coexist in the form of a fiber. | 2012-07-05 |
| 20120171489 | New Polymeric Bead Compositions - The present invention is a polymeric bead composition. More particularly the present invention is directed to a new polymeric bead composition formed by suspension polymerization processes from a phosphorous acid containing monomers. | 2012-07-05 |
| 20120171490 | NOVEL POLYMORPHIC FORM OF TERIFLUNOMIDE SALTS - The present invention provides a new polymorph Form I of Teriflunomide sodium and a process for preparation thereof. The present invention provides an amorphous form of Teriflunomide sodium and a process for preparation thereof. The present invention provides a new polymorph Form I of Teriflunomide potassium and a process for preparation thereof. The present invention provides an amorphous form of Teriflunomide potassium and a process for preparation thereof. The present invention also provides particle size of Teriflunomide and its salts. | 2012-07-05 |
| 20120171491 | POWDER FORMED FROM MINERAL OR ROCK MATERIAL WITH CONTROLLED PARTICLE SIZE DISTRIBUTION FOR THERMAL FILMS - An ultra-fine powder formed from a naturally occurring mineral or rock material and having a controlled or “engineered” particle size distribution (PSD) to match the infrared spectra with a maximum particle size in the range of 14-17 microns measured as either D99, or preferably D95, and a minimum particle size D5 in the range of 4-7 microns. Preferably the maximum particle size is about 15 microns, the minimum particle size is about 5 microns and the D50 particle size is about 8-10 microns with the moisture content of the particle size “engineered” powder being less than about 0.20 percent by weight and preferably about 0.05 to 0.08 percent by weight of the powder. This specially “engineered” ultra-fine powder is used to reduce the thermicity of thermal film to a value less than about 20%. | 2012-07-05 |
| 20120171492 | ENCAPSULATION OF REACTIVE COMPONENTS FOR 1-K SYSTEMS USING COAXIAL DIES - The invention relates to the production of core-shell particles for encapsulating reactive components for single-component resin systems. In particular, the invention relates to the encapsulation of radical initiators such as peroxides. The invention further relates to a method for the 100% encapsulation of reactive components, whereby novel, storage-stable resin systems can be provided. At the same time, the core-shell particles are designed such that they can be opened nearly completely, easily and quickly during application, but have sufficient storage and shear stability before application. | 2012-07-05 |
| 20120171493 | Fluoropolymer Molding Method and Molded Article - A fluoropolymer molding method and the resulting molded article are disclosed where the fluoropolymer is composed of fluoropolymer particles each having a multi-layer structure that consists of at least two types of fluoropolymers having different melting points, with at least one inner layer made of a fluoropolymer with a melting point higher than that of the outermost fluoropolymer. The fluoropolymer of the at least one inner layer is molded at a temperature higher than the melting point of the lowest melting point of the fluoropolymers that form the outermost layers of the multi-layer-structure fluoropolymer particles, and lower than the melting point of the fluoropolymer having the highest melting point. The resulting articles have excellent chemical liquid resistance and gas impermeability and low linear expansion coefficient. | 2012-07-05 |
| 20120171494 | INTERMEDIATE TRANSFER MEMBER, IMAGING APPARATUS, AND METHOD - An intermediate transfer member for electrophotography includes a substrate, a cured static dissipative silicone compliant layer comprising crosslinked silicone polymer formed from a UV light curable siloxane and a UV curing catalyst, and an outermost surface ceramer layer. This intermediate transfer member can be incorporated into a suitable imaging apparatus for forming a toned image on a receiver element. | 2012-07-05 |
| 20120171495 | WATER AND OIL RESISTANT AGENT FOR PAPER, TREATMENT PROCESS AND PAPER - Disclosed is a water and oil resistant agent comprising a fluorine-containing copolymer obtained by copolymerizing a (meth)acrylate monomer having a polyfluoroalkyl group having 1-6 carbon atoms, hydrophilic monomer, and monomer having an anion-donating group, which agent affords a superior water and oil resistance to a paper. The invention also discloses a process for treating a paper by the water and oil resistant agent and a treated paper thereby. | 2012-07-05 |
| 20120171496 | Flexible, Molded or Extruded Articles and Semiconductive Compounds for Their Manufacture - A molded or extruded article, e.g., an electrical part or shielded cable, comprises at least one insulation layer and at least one semiconductive layer, the semiconductive layer thick and comprising in weight percent: A. 1 to 30 wt % of conductive filler; B. 10 to 90 wt % of a non-olefin elastomer; C. 10 to 90 wt % of an olefin elastomer; and D. Optionally, 0.5 to 2.5 wt % of peroxide. Carbon black and/or metal particulates or powder typically comprise the filler, silicone or urethane rubber the non-olefin elastomer, and EPR or EPDM the olefin elastomer. | 2012-07-05 |
| 20120171497 | COVER GLASS AND METHOD FOR PRODUCING SAME - A cover glass having a compressive-stress layer on the principal surfaces thereof, and having a glass composition containing 50% to 70% by mole of SiO | 2012-07-05 |
| 20120171498 | INTERMEDIATE FILM FOR LAMINATED GLASS, AND LAMINATED GLASS - The present invention is aimed to provide an interlayer film for a laminated glass containing a thermoplastic elastomer and preventing degradation of interior materials of buildings, art works, constituent materials of a laminated glass other than the interlayer film for a laminated glass, and the like, while maintaining high transparency. | 2012-07-05 |
| 20120171499 | SILVER RIBBONS, METHODS OF THEIR MAKING AND APPLICATIONS THEREOF - A method of making silver ribbons is disclosed. A silver salt solution and a reducing agent solution are added to an aqueous dispersing polymer solution to precipitate silver ribbons. | 2012-07-05 |
| 20120171500 | PROCESS FOR SURFACE TREATING MAGNESIUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of magnesium alloy comprises providing a substrate made of magnesium alloy. The substrate is then treated with a chemical conversion treatment solution containing oleic acid as a main film forming agent, to form an oleic acid conversion film on the substrate. A ceramic coating comprising refractory metal compound is next formed on the cerium conversion film by physical vapor deposition. | 2012-07-05 |
| 20120171501 | PROCESS FOR SURFACE TREATING MAGNESIUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of magnesium alloy comprises providing a substrate made of magnesium alloy. Then an inorganic chemical conversion film is formed on the substrate by an inorganic chemical conversion treatment. An organic chemical conversion film is subsequently formed on the inorganic chemical conversion film by an organic chemical conversion treatment. Then a ceramic coating comprising refractory metal compound is formed on the chemical conversion film by physical vapor deposition. An article made of magnesium alloy created by the present process also is provided. | 2012-07-05 |
| 20120171502 | PROCESS FOR SURFACE TREATING MAGNESIUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of magnesium alloy comprises providing a substrate made of magnesium alloy. The substrate is then treated with a chemical conversion treatment solution containing cerium nitrate and potassium permanganate as main film forming agents, to form a cerium conversion film on the substrate. A ceramic coating comprising refractory metal compound is next formed on the cerium conversion film by physical vapor deposition. | 2012-07-05 |
| 20120171503 | CARRIER FOR HOLDING NUCLEIC ACID - A solid support for maintaining a uniform spot shape while improving the capacity for immobilization of nucleic acids upon spotting of nucleic acids onto a solid support is provided. A substrate has a base material, an electrostatic layer formed on the base material in order to electrostatically attract nucleic acids, and carboxyl groups formed on the electrostatic layer, wherein the ratio, (COO peak intensity)/(C—C peak intensity) in the C1s spectra obtained by X-ray photoelectron spectrometry (XPS) performed for the surface of the substrate ranges from 0.10 to 0.20. The solid support for immobilizing nucleic acids is produced by active esterification of carboxyl groups of the substrate. | 2012-07-05 |
| 20120171504 | SINGLE STEP CREOSOTE/BORATE WOOD TREATMENT - Disclosed is a method of reducing insect and microbial decay in wood. The method comprises the steps of: | 2012-07-05 |
| 20120171505 | ANTIMICROBIAL SIZE EMULSION AND GYPSUM PANEL MADE THEREWITH - Disclosed is an emulsion of an internal paper size and a biocidal emulsifying agent, such as a cationic non-starchy quaternary ammonium compounds, that is introduced into a paper-making furnish to produce an anti-microbial paper. The antimicrobial paper is useful as facing for gypsum panels. A method of making the paper includes emulsifying the internal size with a biocide before introducing the size to the paper furnish. A method of making a microbial growth resistant gypsum panel that incorporates the antimicrobial paper is also disclosed. | 2012-07-05 |
| 20120171506 | CURVED PARTS AND METHOD FOR MANUFACTURING THE SAME - A curved-part forming method for obtaining a curved part by performing forming on a blank formed of a single metal plate, the method including a bending process in which the blank having a curved outline corresponding to a curve of the curved part in a longitudinal direction is bent into a sectional shape corresponding to a division portion of a sectional shape of the curved part; and a joining process in which two or more portions obtained by the bending process are joined together. | 2012-07-05 |
| 20120171507 | ELECTROLYTIC MACHINING METHOD AND SEMIFINISHED WORKPIECE BY THE ELECTROLYTIC MACHINING METHOD - The present invention relates to an electrolytic machining method. For increasing size precision of electrolytic machining method, a metallic mask layer is formed on the surface of a workpiece whose material has high conductivity or volume electrochemical equivalent, whereby the metallic mask layer can be used as a sacrificial layer of electrolytic machining and simultaneously protects the non-machining region of the workpiece so as to reduce lateral machining of the workpiece Consequently, the size precision of electrolytic machining is enhanced. In addition, the feasibility of electrolytically machining a miniature interval between two machined structures is increased as well. In addition, the present invention provides a semifinished electrolytic workpiece, comprising a workpiece and a metallic mask layer formed on the surface of the workpiece. The conductivity or volume electrochemical equivalent of the metallic mask layer is smaller than that of the workpiece. | 2012-07-05 |
| 20120171508 | COATED ARTICLE AND METHOD FOR MANUFACTURINGTHE COATED ARTICLE - A coated article is provided. A coated article includes a composite substrate made from carbon fiber and zirconium diboride. A chromium layer is deposited on the substrate. A chromium diffusing layer is formed between the substrate and the chromium layer. A chromium-nitrogen layer is deposited on the chromium layer. A iridium layer is deposited on the chromium-nitrogen layer opposite to the chromium layer, wherein the chromium-nitrogen layer includes a first chromium-nitrogen layer and a second chromium-nitrogen layer. The first chromium-nitrogen layer abuts the chromium layer. The second chromium-nitrogen layer abuts the iridium layer. The atomic nitrogen content in the first chromium-nitrogen layer gradually increases with the thickness of the first chromium-nitrogen layer. The atomic nitrogen content in the second chromium-nitrogen layer gradually decreases with the thickness of the second chromium-nitrogen layer. | 2012-07-05 |
| 20120171509 | Tool Coating - A coating for a cutting tool, which includes a plurality of mutually superposed layers, characterised in that the coating has an outer cover layer with a first layer portion of metallic aluminium or an aluminium alloy and a second layer portion arranged thereover of aluminium oxide or a mixed oxide which contains aluminium and at least one further metal. | 2012-07-05 |
| 20120171510 | CERAMIC PLATE WITH REFLECTIVE FILM AND METHOD OF MANUFACTURING THE SAME - A ceramic plate with reflective film and method of manufacturing the same are provided. The ceramic plate with reflective film at least comprises a ceramic substrate and a reflective film. The reflective film at least includes a glass layer and a metal film with metal crystals. Each of the metal crystals possesses a particular diameter for providing high infrared reflectivity with a particular wavelength. | 2012-07-05 |
| 20120171511 | PROCESS FOR SURFACE TREATING ALUMINUM OR ALUMINUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of aluminum or aluminum alloy comprises providing a substrate made of aluminum or aluminum alloy. Then a zinc-plating layer is formed on the substrate by electroless plating with a zinc electroless plating solution, and a ceramic coating comprising refractory compound is next formed on the zinc-plating layer using physical vapor deposition. | 2012-07-05 |
| 20120171512 | PROCESS FOR SURFACE TREATING MAGNESIUM ALLOY AND ELECTROMAGNETIC SHIELDING ARTICLE MADE WITH SAME - A process for treating the surface of magnesium alloy comprises providing a substrate made of magnesium alloy. A chromium layer is then formed on the substrate by magnetron sputtering and a titanium layer is formed on the substrate by magnetron sputtering. A protective layer is formed on the titanium layer. The protective layer is an epoxy resin coating. | 2012-07-05 |
| 20120171513 | ARTICLE AND METHOD FOR MANUFACTURING ARTICLE - An article includes a substrate made of carbon fiber and zirconium diboride composites; an chromium layer deposited on the substrate; an chromium diffusing layer formed between the substrate and the chromium layer; and a iridium layer deposited on the chromium layer opposite to the chromium diffusing layer. | 2012-07-05 |
| 20120171514 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order. The corrosion resistant layer is an Al—C—N layer. Then, La ions is implanted in the Al—C—N layer by ion implantation process. The atomic percentages of N and C in the Al—C—N gradient layer gradually increase from the side of Al—C—N gradient layer near the aluminum or aluminum alloy substrate to the other side of Al—C—N gradient layer, away from aluminum or aluminum alloy substrate. Therefore the housing has a high corrosion resistance. A method for making the housing is also provided. | 2012-07-05 |
| 20120171515 | COATED ARTICLE AND METHOD FOR MANUFACTURING COATED ARTICLE - An coated article includes a substrate; and a coating deposited on the substrate, wherein the coating is a titanium layer mixed with a first element and a second element, M is at least one element selected from a group consisting of iron, cobalt, nickel, copper, niobium, hafnium and tantalum; R is at least one element selected from a group consisting of scandium, yttrium and lanthanide. | 2012-07-05 |
| 20120171516 | COATED ARTICLE AND METHOD FOR MANUFACTURING COATED ARTICLE - An coated article includes a substrate; and a coating deposited on the substrate, wherein the coating being a zirconium layer co-doped with M and R. M is at least one element selected from a group consisting of iron, cobalt, nickel, copper, niobium, hafnium and tantalum. R is at least one element selected from a group consisting of scandium, yttrium and lanthanide. | 2012-07-05 |
| 20120171517 | Welded, Laminated Apparatus, Methods of Making, and Methods of Using the Apparatus - The invention describes methods of welding onto laminated devices using a low temperature welding process. Also described are laminated devices with welds that do not disrupt a brazed core block of sheets in the laminated devices. Novel laminated devices with welded features for servicing the devices are also described. | 2012-07-05 |
| 20120171518 | NICKEL-PLATED STEEL SHEET AND PROCESS FOR PRODUCING BATTERY CAN USING THE NICKEL-PLATED STEEL SHEET - A Ni-plated steel sheet is provided in which thee occurrence of scratches at the time of forming a battery can is suppressed. Also provided is a method which includes a step where a surface of a steel sheet is plated with Ni in a Ni adhesion amount of 0.3-2 μm, a step where the Ni-plated steel sheet is heated to 600-800° C. to form an Fe−Ni diffusion layer as an outermost surface layer, and a step where the steel sheet is rolled by temper rolling so as to adjust the Fe−Ni diffusion layer so that the steel sheet has the surface roughness Ra of 0.9-2.0 μm and the surface roughness Ry of 4.0-15 μm. A Ni-plated steel sheet which includes an Fe−Ni diffusion layer as an outermost surface layer and in which the diffusion layer has the surface roughness Ra of 0.9-2.0 μm and the surface roughness Ry of 4.0-15 μm and the diffusion layer has such an Fe/Ni ratio that the Fe accounts for 20-50% in Auger analysis is subjected to drawing using a water-soluble liquid which contains water-soluble emersion as a press lubricant. | 2012-07-05 |
| 20120171519 | MULTILAYER STRUCTURE WITH HIGH ORDERED FePt LAYER - A multilayer structure and method for making the same. In accordance with some embodiments, a multilayer structure has a first layer of Fe, a layer of A1 phase FePt on the first layer of Fe, and a second layer o Fe on the layer of FePt. The multilayer structure is annealed to convert the A1 phase FePt to L1o phase FePt. | 2012-07-05 |
| 20120171520 | BATTERY PACK - Provided is a battery pack. The battery pack may prevent a center of a protective circuit module from being bent by external impacts during or after a process of manufacturing a battery pack. The battery pack includes a bare cell from which an electrode terminal protrudes, a circuit module disposed above the electrode terminal, a positive temperature coefficient (PTC) unit disposed between the bare cell and the circuit module, the PTC unit being electrically connected to the bare cell and the circuit module, and an electrode lead plate having one side contacting the electrode terminal and the other side contacting the PTC unit, the electrode lead plate having a top surface contacting a bottom surface of the circuit module. | 2012-07-05 |
| 20120171521 | MOBILE TERMINAL WITH USER IDENTIFICATION CARD INCLUDING PERSONAL FINANCE- RELATED INFORMATION AND METHOD OF USING A VALUE-ADDED MOBILE SERVICE THROUGH SAID MOBILE TERMINAL - The present invention enables a user to receive a financial service anywhere through a mobile terminal equipped with a UIM (User Identification Module) electronic card. In the present invention, a user enters his or her password to a mobile terminal with a UIM card including subscriber telephone number, finance, authorization, and personal information, then, if the entered password is correct, authorization is processed with a remote authorizing server based on the authorization information. After authorization, user's requesting service, e.g., payment service, transaction particulars inquiry service, prepaid card recharging service is conducted through a mobile network. | 2012-07-05 |
| 20120171522 | ELECTRICAL ENERGY STORAGE CELL AND ELECTRICAL ENERGY STORAGE MODULE INCLUDING THE SAME - The storage cell includes a flat roll electrode that includes a strip of positive electrode having a positive electrode current collector foil and a positive electrode layer formed thereon, a strip of negative electrode having an electrode current collector foil and a negative electrode layer formed, and a strip of electrically insulated separator, the strip of positive electrode and the strip of negative electrode being wound into a flat roll configuration with the strip of electrically insulated separator sandwiched therebetween; a sealed casing that hermetically seals the flat roll electrode impregnated with an electrolyte; a positive terminal and a negative terminal each electrically insulated from the sealed casing, connected to the positive current collector foil and the negative current collector foil, respectively. | 2012-07-05 |
| 20120171523 | BATTERIES WITH PHASE CHANGE MATERIALS - A battery pack with phase change materials (PCM). The PCM would improve the heating and cooling capabilities under various vehicle operating conditions. Methods of controlling the temperature in battery packs are also described. | 2012-07-05 |
| 20120171524 | MOLTEN SALT BATTERY DEVICE, AND METHOD FOR CONTROLLING TEMPERATURE OF MOLTEN SALT BATTERY - In a molten salt battery device, molten salt batteries are arranged in a container to cause a space to be present around the molten salt batteries, and a heating medium is filled into the space around the molten salt batteries. When an electrothermal heater is used to control the temperature of the heating medium through a temperature controlling section, the heating medium is caused to flow. Between the flowing heating medium and the molten salt batteries, heat is exchanged, whereby the molten salt battery device controls the temperature of the molten salt batteries. Since the molten salt batteries attain the heat exchange with the heating medium, which surrounds the batteries, the internal temperature thereof is evenly controlled. Moreover, the molten salt battery device makes it possible to lower the temperature of the heating medium to cool the molten salt batteries easily. | 2012-07-05 |
| 20120171525 | SECONDARY BATTERY - A secondary battery includes an electrode assembly including a first electrode plate including a first non-coating portion, a second electrode plate including a second non-coating portion, and a separator between the first and second electrode plates; an insulating bag accommodating the electrode assembly and including first and second connection members electrically connected to the first and second non-coating portions, respectively; a case accommodating the electrode assembly and the insulating bag; a cap plate sealing an opening of the case; and first and second electrode terminals electrically connected to the first and second connection members, respectively. An upper part of the insulating bag having an opening is coupled to a lower surface of the cap plate. | 2012-07-05 |
| 20120171526 | RUBBER VALVE FOR SEALING A BATTERY AND A LITHIUM ION BATTERY HAVING THE SAME - A rubber valve for sealing a battery sealing structure is provided, comprising: a first projection in a dome shape with a center protruding upward; a second projection in a hemispherical shape with at least one diametric groove formed thereon; and a column connecting the first and the second projections. A lithium ion battery having the rubber valve is also provided. | 2012-07-05 |
| 20120171527 | BATTERY MODULE - A battery module has following features, that are: a plurality of unit batteries, in which battery elements are sealed with a film casing material, is laminated and electrically connected in series or parallel, or in series and parallel, to make an assembled battery; and on a length-direction central portion of the assembled battery, at least one strip-shaped circular frame body is disposed. | 2012-07-05 |
| 20120171528 | BATTERY - A battery is provided, comprising: a battery housing having at least one opening end; a battery cover sealing the at least one opening end; an electric core received in the battery housing, which comprises at least one heat-conducting tube having at least an end penetrating through the battery cover; and an electrolyte filled in a space formed by the battery housing with the battery cover. | 2012-07-05 |
| 20120171529 | BATTERY PACK - Disclosed is a battery pack including a battery and a cooling member for cooling the battery. The cooling member includes a coolant and a container enclosing the coolant. The container is capable of having a releasing port for releasing the coolant at a first temperature of 100° C. or more. The cooling member is arranged at a position that allows the coolant released from the releasing port of the container to spread on a principal surface of the battery. The coolant may include water, a surfactant, and a metallic soap. The coolant may further include a foaming accelerator capable of foaming at a temperature of 100° C. or more. | 2012-07-05 |
| 20120171530 | REDOX FLOW BATTERY - Provided are redox flow batteries employing supporting electrolyte of a ring- or spiro-type structure and having high energy efficiencies and energy densities. | 2012-07-05 |
| 20120171531 | REDOX FLOW BATTERY - A metal-ligand coordination compound containing an aliphatic ligand useful as a catholyte and/or an anolyte that enables the provision of a redox flow battery having high energy efficiency and charge/discharge efficiency. | 2012-07-05 |
| 20120171532 | MIDDLE OR LARGE-SIZED BATTERY PACK OF IMPROVED COOLING EFFICIENCY - Disclosed is a battery pack configured to have a structure in which two or more battery modules, each including a plurality of battery cells or unit modules (unit cells) which can be charged and discharged, are mounted in a space defined between a pack case and a base plate, wherein cooling members, each including a heat dissipation fin disposed in contact with outsides of corresponding ones of the unit cells and a coolant conduit connected to a lower end of the heat dissipation fin to allow a coolant to flow therealong, are mounted at interfaces between the unit cells, the base plate, located below the battery modules, is configured to form a coolant flow channel having a coolant flow direction corresponding to the coolant flow direction in the coolant conduit, the pack case is coupled to the base plate in a state in which the battery modules are mounted on the base plate. | 2012-07-05 |
| 20120171533 | Battery Assembly With Gas Discharge Mechanism - A battery gas discharge system is provided having a floorpan with an outlet and a fastener aperture. The outlet and the fastener aperture are laterally spaced from each other. The system also includes a battery module with a base for resting upon the floorpan. An attachment aperture and a vent aperture are formed through the base. The attachment aperture and the vent aperture are laterally spaced from each other. A gas discharge mechanism defines a passageway for gas discharge between the battery module and the vent aperture. The gas discharge mechanism includes a vent port that is coupled to the vent aperture and sized for receiving discharged gas. The vent port is adapted for mating with and forming a seal about the outlet by securing the base to the floorpan during assembly. | 2012-07-05 |
| 20120171534 | SEALED SECONDARY BATTERY - In a sealed secondary battery, an electrode group | 2012-07-05 |
| 20120171535 | Nickel-zinc battery and manufacturing method thereof - A cylindrical Ni—Zn battery includes a battery shell, an electrode assembly and a liquid electrolyte which are sealed within the shell. The electrode assembly, whose upper part is connected to a cap, includes a nickel cathode, zinc anode, and a composite membrane. The nickel cathode and zinc anode have an edge portion which are externally exposed and bent inwardly to form the anode and cathode conductive end respectively, and edges of the composite membranes are sealed together, so that the electrodes are contained in the membranes. The battery is characterized by the simple in structure, convenient installation, low cost, safety, characteristics of long-term storage, effectively preventing the growth of dendrite, long life, strong capability to resist shake, and good performance of large current discharging. | 2012-07-05 |
| 20120171536 | NON-AQUEOUS SECONDARY BATTERY AND ELECTRODE ASSEMBLY USED THEREFOR - A non-aqueous secondary battery including: a positive electrode plate including a positive electrode current collector in long strip form, and a positive electrode active material layer adhering to the surface of the positive electrode current collector; a negative electrode plate including a negative electrode current collector in long strip form, and a negative electrode active material layer adhering to the surface of the negative electrode current collector; a porous insulating layer interposed between the positive electrode plate and the negative electrode plate; a non-aqueous electrolyte; and a spacer in film form disposed at least between the positive electrode plate and the porous insulating layer or between the negative electrode plate and the porous insulating layer, the spacer being constituted of a resin dissolvable in the non-aqueous electrolyte. | 2012-07-05 |
| 20120171537 | MOLTEN SALT BATTERY - Provided is a molten salt battery which can be stably charged and discharged. A separator | 2012-07-05 |
| 20120171538 | MOBILE TERMINAL WITH USER IDENTIFICATION CARD INCLUDING PERSONAL FINANCE- RELATED INFORMATION AND METHOD OF USING A VALUE-ADDED MOBILE SERVICE THROUGH SAID MOBILE TERMINAL - The present invention enables a user to receive a financial service anywhere through a mobile terminal equipped with a UIM (User Identification Module) electronic card. In the present invention, a user enters his or her password to a mobile terminal with a UIM card including subscriber telephone number, finance, authorization, and personal information, then, if the entered password is correct, authorization is processed with a remote authorizing server based on the authorization information. After authorization, user's requesting service, e.g., payment service, transaction particulars inquiry service, prepaid card recharging service is conducted through a mobile network. | 2012-07-05 |
| 20120171539 | Handheld machine tool energy supply unit - A handheld machine tool energy supply unit, particularly a battery pack or an accumulator pack having an accumulator unit and an interface element, is described. The handheld machine tool energy supply unit includes a damping unit, which is provided for supporting the accumulator unit in an oscillation-damped manner. | 2012-07-05 |
| 20120171540 | HOLDING MECHANISM AND ELECTRONIC DEVICE USING THE SAME - A holding mechanism for holding a battery includes a retaining member, a resisting member ant at least two limiting members. The retaining member limits the battery from movement in a first direction. The resisting member corresponds to the retaining member and engages with the retaining member to cooperatively support and limit the battery from movement in a second direction perpendicular to the first direction. The at least two limiting members are arranged at opposite sides of the retaining member and are used for limiting the battery from movement in a third direction. The third direction is perpendicular to the first direction and the second direction. An electronic device using the holding mechanism is also provided. | 2012-07-05 |
| 20120171541 | REDOX FLOW BATTERY - A redox flow battery. A metal-ligand coordination compound including an aromatic ligand that contains an electron withdrawing group is used as the catholyte and/or the anolyte so that a redox flow battery having high energy density and excellent charge/discharge efficiency may be provided. | 2012-07-05 |
| 20120171542 | SECONDARY BATTERY - A secondary battery including: a positive electrode which comprises an oxide which absorbs and releases lithium ions; a negative electrode which comprises a material which absorbs and releases the lithium ions; and a first electrolyte solution which transports charge carriers between the positive electrode and the negative electrode; wherein the positive electrode comprises a compound, which is represented by the composition formula Li | 2012-07-05 |
| 20120171543 | DEVICE FOR THE THERMAL CONNECTION OF AN ENERGY STORAGE - A device for thermal connection of an energy store to a cooling plate and/or a contact element, and a cooling plate on a contact element and/or a fluid is provided. The device for thermal connection has a first region having a first heat transfer property and at least one other region having another heat transfer property, wherein the first region and the at least one other region are arranged next to one another in relation to the heat transfer surface. | 2012-07-05 |
| 20120171544 | GALVANIC CELL, CELL STACK, AND HEAT SINK - The invention relates to a galvanic cell ( | 2012-07-05 |
| 20120171545 | ELECTRICAL ENERGY STORAGE DEVICE HAVING FLAT CELLS AND HEAT SINKS - The invention relates to an electrical energy storage device comprising: a plurality of flat storage cells for storing and discharging electrical energy, having opposing, flat current conductors, a plurality of spacer elements for maintaining a predetermined distance between the storage cells, and a clamping means for clamping the cells into a stack, wherein cells are clamped by the clamping means at the current conductors thereof between spacer elements by means of a force fit, wherein at least some of the spacer elements are designed as heat sinks. The heat sinks have fins extending sideways out from the stack. The heat sinks are alternatively thermally connected to the current conductors by means of a soft, heat conductive material. In a further alternative, two heat sinks are disposed between adjacent current conductors. In a final alternative, the spacer elements comprise relief holes for weight reduction. The alternatives can be combined. | 2012-07-05 |
| 20120171546 | HEAT DISSIPATING HOUSING AND LITHIUM BATTERY PACK USING THE SAME, AND SEMICONDUCTING TAPE FOR HEAT DISSIPATION - The heat dissipating housing ( | 2012-07-05 |
| 20120171547 | PRINTED BATTERY USING NON-AQUEOUS ELECTROLYTE AND BATTERY PACKAGING - The present subject matter relates generally to methods and apparatus for printed batteries using non-aqueous electrolyte and battery packaging. Various embodiments of the present subject matter include an all printed carbon and zinc battery having a lower substrate, a cathode current collector printed on the lower substrate, and a cathode printed on the cathode current collector. In various embodiments, an anode is printed on the lower substrate adjacent the cathode, a non-aqueous electrolyte is printed over the anode and the cathode, and a top substrate is laminated to the electrolyte. Other aspects and embodiments are provided herein. | 2012-07-05 |
| 20120171548 | MICROPOROUS FOIL FOR BATTERIES HAVING SHUTDOWN FUNCTION - Single-layer or multilayer, biaxially oriented, microporous foil having a shutdown function, which comprises at least one shutdown layer I, which comprises propylene homopolymer and ss-nucleating agent and polyethylene. | 2012-07-05 |
| 20120171549 | INTERCELLULAR SEPARATION STRUCTURE BODY AND LAMINATE TYPE SOLID SECONDARY BATTERY PROVIDED WITH THE SAME - An intercellular separation structure body capable of electrically connecting a plurality of unit cells that include a laminate type solid secondary battery with each other, and capable of ion-conductively insulating a positive electrode layer and a negative electrode layer in two adjacent unit cells, as well as a laminate type solid secondary battery provided with the same. The intercellular separation structure body is an intercellular separation structure body disposed between a plurality of unit cells each of which includes a positive electrode layer, a solid electrolyte layer, and a negative electrode layer that are sequentially stacked in a laminate type solid secondary battery. This intercellular separation structure body includes an insulating layer that electroconductively and ion-conductively insulates the plurality of unit cells from each other and an electroconductive section that is formed within the insulating layer and electrically connects the plurality of unit cells with each other. | 2012-07-05 |
| 20120171550 | ACTIVE MATERIAL FOR BATTERIES, NON-AQUEOUS ELECTROLYTE BATTERY, AND BATTERY PACK - According to one embodiment, an active material for batteries includes monoclinic β-type titanium composite oxide having a crystallite, wherein the monoclinic β-type titanium composite oxide has a first diameter of the crystallite calculated from a peak present at an angle | 2012-07-05 |
| 20120171551 | STORAGE MODULE - This invention provides a storage module formed using a plurality of storage cells. The each storage cell includes a storage unit that stores a charge, a polyhedral container that houses the storage unit and has two opposing surfaces, and a pair of electrode terminals that output and input the charge of the storage unit. The electrode terminals include a positive electrode terminal that projects externally from an end portion of the container and has a joint surface that is formed to be substantially coplanar with one of the two opposing surfaces of the container and joined to an electrode terminal of an adjacent storage cell, and a negative electrode terminal that projects externally from the end portion of the container and has a joint surface that is formed to be substantially coplanar with another of the two surfaces and joined to an electrode terminal of an adjacent storage cell. | 2012-07-05 |
| 20120171552 | BATTERY MODULE - Battery module ( | 2012-07-05 |
| 20120171553 | BATTERY AND BATTERY PACK HAVING THE SAME - A battery includes an electrode assembly having a first electrode plate and a second electrode plate each having an uncoated portion, and a separator located between the first electrode plate and the second electrode plate; a case accommodating the electrode assembly and having an opening; an electrode terminal connected to the electrode assembly and protruding from the case; and a cap assembly comprising a cap plate sealing the opening of the case, wherein the electrode assembly is constructed such that at least one of the uncoated portions of the first and second electrode plates extends along only a portion of the electrode assembly, and wherein the case has a bent portion formed on at least one side to generally correspond to the electrode assembly. | 2012-07-05 |
| 20120171554 | BATTERY MODULE - A battery module including a plurality of battery cells spaced apart in a first direction, and a barrier between adjacent battery cells of the plurality of battery cells, the barrier including a plate, and a protrusion extending from the plate in the first direction and contacting the adjacent battery cells, the protrusion including an elastomer. | 2012-07-05 |
| 20120171555 | RECHARGEABLE BATTERY - A rechargeable battery comprises an electrode assembly comprising a plurality of electrodes, wherein each of the plurality of electrodes comprises a coated region and an uncoated region; a case housing the electrode assembly; a cap plate coupled to the case for enclosing the electrode assembly in the case; a current collection plate coupled to the cap plate; and a connecting member electrically connected to the uncoated regions of at least two electrodes. | 2012-07-05 |
| 20120171556 | SECONDARY BATTERY - A secondary battery including an electrode assembly; a can housing the electrode assembly; a cap assembly sealing the can; an upper case covering the cap assembly; and a protective circuit module between the cap assembly and the upper case, the protective circuit module having a printed circuit board; and a first protective circuit device coupled to the printed circuit board by a first solder; and an external terminal electrically coupled to the printed circuit board by a second solder, wherein a melting point of the first solder is not lower than a melting of the second solder. | 2012-07-05 |
| 20120171557 | BATTERY PACK - A battery pack that includes a battery cell having a positive and negative electrode terminal extending from a side of the battery cell. The positive and negative electrode terminal each have a non-exposed surface and an exposed surface. The battery pack also includes a case that includes a first case and a second case. The first case includes a first terminal guide unit to accommodate the positive electrode terminal with the non-exposed surface of the positive electrode terminal facing the first terminal guide. The second case includes a second terminal guide unit that accommodates the negative electrode terminal. The non-exposed surface of the negative electrode terminal faces the second terminal guide. The first case and the second case are coupled together with the battery cell positioned between the first case and the second case. | 2012-07-05 |
| 20120171558 | ELECTROCHEMICAL CELL - In an electrochemical cell including a cathode | 2012-07-05 |
| 20120171559 | BATTERY HOUSING HAVING A SEALING PLATE - The invention relates to a battery housing ( | 2012-07-05 |
| 20120171560 | Silicon and lithium silicate composite anodes for lithium rechargeable batteries and preparation method thereof - The present invention provides composite anodes comprising particles composed of silicon and lithium silicate, active and inactive anode materials, and binders, for lithium rechargeable batteries, wherein the particles composed of silicon and lithium silicate are prepared via treating silicon particles with lithium hydroxide in a wet process. Cycle life and characteristics and capacity of a secondary battery adopting the composite anode can be greatly improved. | 2012-07-05 |
| 20120171561 | POLYMER RADICAL MATERIAL-ACTIVATED CARBON-CONDUCTIVE MATERIAL COMPOSITE, METHOD FOR PRODUCING CONDUCTIVE MATERIAL COMPOSITE, AND ELECTRICITY STORAGE DEVICE - The object of the present invention is to provide an electrode material which enables the production of an electricity storage device that has a large discharge capacity, and suffers minimal voltage drop due to resistance even when discharge is performed at a large electric current; a method for producing the electrode material; and an electricity storage device that exhibits both high energy density and high output characteristics, and an electricity storage device is produced which uses, as an electrode, a polymer radical material-activated carbon-conductive material composite, prepared by adding dropwise, or pouring, a raw material solution, in which a polymer radical material having a radical partial structure in a reduced state is dissolved or swollen and an activated carbon and a conductive material are dispersed or dissolved, into a solution in which the polymer radical material, the activated carbon and the conductive material do not dissolve or swell, thus obtaining a precipitate containing the polymer radical material, the activated carbon and the conductive material. | 2012-07-05 |
| 20120171562 | SOLID LITHIUM ION CONDUCTING ELECTROLYTES AND METHODS OF PREPARATION - A composition comprised of nanoparticles of lithium ion conducting solid oxide material, wherein the solid oxide material is comprised of lithium ions, and at least one type of metal ion selected from pentavalent metal ions and trivalent lanthanide metal ions. Solution methods useful for synthesizing these solid oxide materials, as well as precursor solutions and components thereof, are also described. The solid oxide materials are incorporated as electrolytes into lithium ion batteries. | 2012-07-05 |
| 20120171563 | ELECTROLYTE FOR LITHIUM SECONDARY BATTERY AND LITHIUM SECONDARY BATTERY INCLUDING THE SAME - An electrolyte for a lithium secondary battery, which includes a lithium salt, a nonaqueous organic solvent and at least one additive selected from the group consisting of vitamin G (vitamin B | 2012-07-05 |
| 20120171564 | ADVANCED GRAPHITE ADDITIVE FOR ENHANCED CYCLE-LIFE OF LEAD-ACID BATTERIES - An Advanced Graphite, with a lower degree of ordered carbon domains and a surface area greater than ten times that of typical battery grade graphites, is used in negative active material (NAM) of valve-regulated lead-acid (VRLA) type Spiral wound 6V/25 Ah lead-acid batteries. A significant and unexpected cycle life was achieved for the Advanced Graphite mix where the battery was able to cycle beyond 145,000 cycles above the failure voltage of 9V in a non-stop, power-assist cycle-life test. Batteries with Advanced Graphite also showed increased charge acceptance power and discharge power compared to control groups. | 2012-07-05 |
| 20120171565 | ALKALINE PRIMARY BATTERY - An alkaline primary battery includes: a positive electrode | 2012-07-05 |
| 20120171566 | ELECTRODE FOR LITHIUM ION BATTERY AND METHOD FOR PRODUCING SAME - There is disclosed an electrode for a lithium-ion battery containing (a) a fine fibrous carbon having a diameter of less than 100 nm and (b) a fibrous carbon having a diameter of 100 nm or more and/or (c) a non-fibrous conductive carbon as an electrical conducting material. This electrode for a lithium-ion battery has a small electrode surface resistance, an improved discharge capacity and excellent cycle properties. | 2012-07-05 |
| 20120171567 | METHOD OF PRODUCING SEALING STRUCTURE OF BIPOLAR BATTERY, METHOD OF MANUFACTURING BIPOLAR BATTERY, SEALING STRUCTURE OF BIPOLAR BATTERY, AND BIPOLAR BATTERY - The present invention is intended to provide a method of producing a sealing structure of a bipolar battery capable of improving the sealing capability by means of solidifying the joint between a resin collector comprising a thermosetting resin before the setting reaction and a sealing layer, a method of producing the bipolar battery, and the sealing structure of the bipolar battery and the bipolar battery. The method of producing the sealing structure of the bipolar battery comprises s step of producing the sealing assembly | 2012-07-05 |
| 20120171568 | PRISMATIC BATTERY CELL WELDING - A prismatic battery cell is provided. The prismatic battery cell includes a plurality of electrode films conducting electricity in the prismatic battery cell, a terminal welded to the plurality of electrodes, and a buffer film welded to the plurality of electrodes, the plurality of electrodes interposing the terminal and the buffer film. | 2012-07-05 |
| 20120171569 | CERAMIC MATERIAL - A method of manufacturing a composite material, the method comprising: (i) providing a ceramic powder comprising ceramic agglomerates, the agglomerates having an intra-agglomerate void volume space; (ii) providing a polymer; (iii) mixing the polymer with the ceramic powder to form a mixture comprising the agglomerates at least partially impregnated with the polymer, wherein the volume of polymer in the mixture is at least 80% of the total intra-agglomerate void volume space, but less than 130% of the total intra-agglomerate void volume space; (iv) optionally shaping the mixture to form a preform; (v) and treating the mixture to provide ceramic agglomerates which are at least partially impregnated with solid polymer. | 2012-07-05 |
| 20120171570 | ELECTRODE COMPOSITE MATERIAL AND LITHIUM ION BATTERY USING THE SAME - The present disclosure relates to an electrode composite material. The electrode composite material includes a number of electrode composite material particles. Each of the plurality of electrode composite material particles includes an electrode active material particle and a doped aluminum phosphate layer coated on a surface of the electrode active material particle. A material of the doped aluminum phosphate layer is a semiconducting doped aluminum phosphate. | 2012-07-05 |
| 20120171571 | NEGATIVE ELECTRODE MATERIAL FOR NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY AND NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY COMPRISING SAME - A negative electrode material for a non-aqueous electrolyte secondary battery, which comprises a negative electrode active material capable of absorbing and releasing a lithium ion and at least one salt selected from the group consisting of a carboxylic acid salt of an alkali metal, a carboxylic acid salt of an alkali earth metal, a sulfuric acid salt of an alkali metal, a sulfuric acid salt of an alkali earth metal, a boric acid salt of an alkali metal, a boric acid salt of an alkali earth metal, a phosphoric acid salt of an alkali metal and a phosphoric acid salt of an alkali earth metal. | 2012-07-05 |
| 20120171572 | CARBON MATERIAL FOR NEGATIVE ELECTRODE OF LITHIUM SECONDARY BATTERY AND METHOD FOR PRODUCING THE SAME - To provide a negative electrode carbon material capable of suppressing capacity degradation which will occur due to repetition of a charge/discharge cycle, storage under a charged state, float charging, or the like. An artificial graphite for a negative electrode of a lithium secondary battery having a c-axis crystallite size L (112) of from 2.0 to 4.2 nm as calculated from a (112) diffraction line obtained by X-ray wide-angle diffractometry and having a half-value width Δν | 2012-07-05 |
| 20120171573 | HYBRID MATERIALS USING IONIC PARTICLES - A separator substrate include a substrate having a bulk portion and a surface portion, the surface portion having at least one porous area with a net charge; and ionic particles coupling to at least a part of the at least one porous area. The ionic particles have a net charge of an opposite sign to the net charge of the at least one porous area. The coupling between the part of the at least one porous area and the ionic particles may result in at least one of a good electrochemical performance, chemical stability, thermal stability, wettability, and mechanical strength of the separator substrate. | 2012-07-05 |
