Class / Patent application number | Description | Number of patent applications / Date published |
428697000 | Layer contains compound(s) of plural metals | 47 |
20080199730 | DIELECTRIC DEVICE AND ITS MANUFACTURING METHOD - A manufacturing method of a dielectric device includes steps described below. (1) Mixing step: Powders serving as a matrix and additive powders for sintering the matrix are mixed. (2) Mixture heat-treating step: The mixture of the matrix and the additive that has been subject to the mixing step is heat-treated. (3) Deposition layer formation step: The material powders obtained through the mixture heat-treating step are injected toward a substrate so as to form a deposition layer on the substrate. (4) Deposition layer heat-treating step: The deposition layer formed on the substrate through the deposition layer formation step is heat-treated so as to form the dielectric layer on the substrate. | 08-21-2008 |
20080226943 | Composite Articles - A composite article includes a first composite material and a second composite material. The first composite material and the second composite material individually comprise hard particles in a binder. A concentration of ruthenium in the binder of the first composite material is different from a concentration of ruthenium in the binder of the second composite material. | 09-18-2008 |
20080226944 | Dielectric ceramic composition and electronic device - A dielectric ceramic composition comprises a main component including BaTiO | 09-18-2008 |
20080305362 | Corrosion inhibitors in adhesive bonding of vehicle body structures - In an illustrative embodiment, two panels of different materials may be bonded with a structural adhesive composition comprising microcapsules containing corrosion inhibiting materials for protecting the panels from corrosion. For example, a steel vehicle door outer panel may be bonded to an aluminum alloy or magnesium alloy inner panel using an epoxy adhesive. Dispersed within the uncured adhesive are an abundance of microcapsules filled with a fluid or mobile material for reacting with the iron and/or aluminum or magnesium to inhibit corrosion arising from the facing surfaces of the mixed metal panels. The protective material is released from the microcapsules for diffusion through the cured or uncured interfacial adhesive to react with one or both panel surfaces and form a protective coating on the surfaces. | 12-11-2008 |
20090017332 | CRYSTALLINE TERNARY CERAMIC PRECURSORS - A method of forming M | 01-15-2009 |
20090075119 | Tunable low loss material compositions and methods of manufacture and use therefore - An embodiment of the present invention provides a method of making an electronically tunable dielectric material comprising mixing particles of at least one electronically tunable dielectric phase and particles of at least one compound of low loss complex perovskites, and particles of optional one other family of materials; and sintering the material. | 03-19-2009 |
20090092856 | APPARATUS FOR FEEDING SOLID FILM-FORMATION MATERIAL - A solid film-formation material feeding apparatus includes a supercritical fluid supply source for supplying supercritical fluid; and a column which is connected to the supercritical fluid supply source, and has a hollow part which is filled with a filler which is inactive for the supercritical fluid, wherein the hollow part can be further filled with a solid film-formation material which is soluble in the supercritical fluid. A column assembly which includes a plurality of the columns which may be connected in parallel to each other. | 04-09-2009 |
20090117405 | TRANSPARENT CRYSTALLINE ELECTRICALLY-CONDUCTIVE THIN FILM, METHOD OF PRODUCTION THEREOF, TRANSPARENT ELECTRICALLY-CONDUCTIVE FILM, AND TOUCH PANEL - A transparent crystalline electrically-conductive thin film of the present invention comprises an indium tin oxide as a main component, wherein the indium tin oxide contains 9% by weight or less of tin oxide based on the total amount of indium oxide and tin oxide, wherein the transparent crystalline electrically-conductive thin film contains 0.45 atomic % or less of nitrogen. The transparent crystalline electrically-conductive thin film of the present invention has a high resistance value and good reliability in a high-temperature, high-humidity environment. | 05-07-2009 |
20090123779 | Hard-Material-Coated Bodies and Method for Their Production - The invention relates to hard-coated bodies with a single- or multi-layer system containing at least one Ti | 05-14-2009 |
20090142619 | Method of manufacturing composite structure, impurity removal processing apparatus, film forming apparatus, composite structure and raw material powder - A film forming apparatus for forming a film according to an AD method in which separation of the film or generation of hillocks is suppressed when the film formed on a substrate is heat-treated. The apparatus includes: an aerosol generating unit ( | 06-04-2009 |
20090155624 | Ceramic Material, Sintered Ceramic and Component Made Therefrom, Production Method and Use of the Ceramic - A ceramic mixed system is proposed that includes a two-phase mixture of pure components A and B, wherein phase A is based on the cubic to tetragonal modification of Bi3NbO7 and phase B is based on a monoclinic pyrochlore modification of Bi2(Zn2/3Nb4/3)O7. The electrical properties of ceramics produced therefrom make the material suitable for components having a multilayer structure in which capacitors and inductors are integrated and which can be used in data processing or signal processing. | 06-18-2009 |
20090269614 | HARD COATING FILM AND TARGET FOR FORMATION THEREOF - A hard coating film having oxidation resistance and wear resistance superior to those of conventional coating films formed of TiAlN, TiCrAlN, TiCrAlSiBN, CrAlSiBN, NbCrAlSiBN, or the like. The hard coating film of the present invention has a component composition represented by the formula: | 10-29-2009 |
20090269615 | METHOD FOR PRODUCING METAL OXIDE LAYERS OF PREDETERMINED STRUCTURE THROUGH ARC VAPORIZATION - The invention relates to a method for producing layers consisting of ternary and higher oxides of metallic and semi-metallic components, wherein the formation temperature of these oxides can be determined essentially through the composition of the binary (or higher) alloy targets (based on the phase diagram). | 10-29-2009 |
20100028718 | COATING PRECURSOR MATERIALS, TURBOMACHINERY COMPONENTS, AND METHODS OF FORMING THE TURBOMACHINERY COMPONENTS - Coating precursor materials, turbomachinery components, and methods of manufacturing the components are provided. In an embodiment, by way of example only, a coating precursor material includes a solid film lubricant component and a bonding component comprising at least one eutectic mixture, said at least one eutectic mixture selected from a group consisting of barium fluoride/nickel fluoride, barium fluoride/cobalt fluoride, and barium fluoride/barium fluoride-boron oxide. | 02-04-2010 |
20100035082 | INTERNAL GEAR PUMP - There have been demands for transparent electrode materials and magnetic materials, each having a wide range of applications. In view of the situations, a novel functional device and a method for forming an oxide material are provided. A functional device includes an Al | 02-11-2010 |
20100055497 | Ceramic Material and Electroceramic Component Comprising the Ceramic Material - A ceramic material with a negative temperature coefficient of specific resistance has the general formula: | 03-04-2010 |
20100075175 | LARGE-AREA SEED FOR AMMONOTHERMAL GROWTH OF BULK GALLIUM NITRIDE AND METHOD OF MANUFACTURE - A high-quality, large-area seed crystal for ammonothermal GaN growth and method for fabricating. The seed crystal comprises double-side GaN growth on a large-area substrate. The seed crystal is of relatively low defect density and has flat surfaces free of bowing. The seed crystal is useful for producing large-volume, high-quality bulk GaN crystals by ammonothermal growth methods for eventual wafering into large-area GaN substrates for device fabrication. | 03-25-2010 |
20100075176 | PROCESS FOR PRODUCING ELECTRICAL CONDUCTOR - To provide a process whereby a titanium oxide type electrical conductor excellent in electrical conductivity with good transparency can be produced with good productivity. | 03-25-2010 |
20100075177 | TNALSPREPARATION METHOD OF ZINC-TIN COMPOSITE TRANSPARENT CONDUCTIVE OXIDE FILMS BY USING ELECTRON CYCLOTRON RESONANCE PLASMA CHEMICAL VAPOR DEPOSITION - The present invention relates to a process of preparing zinc-tin composite transparent conductive oxide films Zn | 03-25-2010 |
20100092800 | SUBSTRATE FOR GROWING WURTZITE TYPE CRYSTAL AND METHOD FOR MANUFACTURING THE SAME AND SEMICONDUCTOR DEVICE - A laminated structure comprises a first layer comprising a crystal with six-fold symmetry, and a second layer comprising a metal oxynitride crystal formed on the first layer, wherein the second layer comprises at least one element selected from the group consisting of In, Ga, Si, Ge and Al, N, O and Zn, as main elements, and wherein the second layer has in-plane orientation. | 04-15-2010 |
20100227197 | COMPLEX OXIDE FILM AND METHOD FOR PRODUCING SAME, COMPOSITE BODY AND METHOD FOR PRODUCING SAME, DIELECTRIC MATERIAL, PIEZOELECTRIC MATERIAL, CAPACITOR, PIEZOELECTRIC ELEMENT AND ELECTRONIC DEVICE - The invention aims at providing a complex oxide film having a high relative dielectric constant and a high voltage resistance, whose film thickness can be arbitrarily controlled, and a manufacturing method thereof, a composite body comprising the complex oxide film and a manufacturing method thereof, a dielectric or piezoelectric material comprising the complex oxide film or composite body, a capacitor or piezoelectric element comprising the complex oxide film advantageous to improve voltage resistance, and an electronic device equipped with the same, without involving any complicated or large scale equipment. The complex oxide film can be obtained by forming a metal oxide film containing a titanium element on a substrate surface and then allowing a solution containing strontium ion to react with the metal oxide film. A capacitor including the complex oxide film as dielectric material and a piezoelectric element including it as piezoelectric material can be produced. | 09-09-2010 |
20100255344 | METHOD OF MANUFACTURING THIN FILM DEVICE AND THIN FILM DEVICE MANUFACTURED USING THE SAME - There is provided a method of manufacturing a thin film device and a thin film device manufactured using the same. The method includes forming a sacrificial layer using a first oxide having a perovskite structure on a preliminary substrate; forming an electrode layer using a second oxide having a perovskite structure on the sacrificial layer; forming a thin film laminate on the electrode layer; bonding a permanent substrate onto the thin film laminate; decomposing the sacrificial layer by irradiating a laser onto the preliminary substrate; and separating the preliminary substrate from the electrode layer. During a laser lift-off process, degradation of properties caused by oxygen diffusion can be prevented. Since the electrode layer has thermal conductivity lower than an existing metal electrode, heat emission can be considerably reduced and the sacrificial layer can be easily decomposed by heat accumulation. Therefore, a thin film device having excellent properties can be manufactured. | 10-07-2010 |
20110076513 | TRANSPARENT CONDUCTIVE FILMS AND FABRICATION METHODS THEREOF - A transparent conductive film and a fabrication method thereof are provided. The transparent conductive film includes a plurality of oxide atomic layers, containing a plurality of multi-oxide atomic layers, wherein a single multi-oxide atomic layer has more than one kind of uniformly mixed oxide. The method includes providing more than one kind of oxide precursor which is individually introduced into atomic layer deposition equipment through different sources, wherein the oxide precursors are consecutively introduced into the atomic layer deposition equipment, so that the oxide precursors are simultaneously present in the atomic layer deposition equipment, forming a uniform mixture for settling onto the substrate. Then, an oxidant is provided to react with the oxide precursors to form a single multi-oxide atomic layer. The above mentioned steps are repeated to form a plurality of multi-oxide atomic layers. | 03-31-2011 |
20110151277 | INFORMATION RECORDING MEDIUM - An information recording medium ( | 06-23-2011 |
20120034491 | CMAS RESISTANT TBC COATING - A process for forming a coating system on a turbine engine component comprises the steps of providing a substrate, depositing a thermal barrier coating on the substrate, depositing a reactive with known CMAS reaction kinetics on the thermal barrier coating, and activating the reactive layer prior to the component being placed in service. As a result of the foregoing process, there is provided a turbine engine component which has a substrate, a thermal barrier coating deposited on the substrate, a reactive layer deposited on the thermal barrier coating, which reactive layer has known CMAS reaction kinetics and is activated prior to the turbine engine component entering into service. | 02-09-2012 |
20120070690 | Composition and Method for Producing ITO Powders or ITO Coatings - A composition for preparing ITO powders and ITO coatings includes at least one indium compound and at least one bimetal compound which includes indium and tin. A method of preparing ITO powders and ITO coatings includes a one-step temperature treatment in an inert atmosphere. | 03-22-2012 |
20120183809 | Production Method of a Layered Body - A production method of a layered body having a single crystal layer including a group III nitride having a composition Al | 07-19-2012 |
20120189871 | ULTRA HIGH TEMPERATURE ENVIRONMENTAL PROTECTION COATING - An environmental protective coating (EPC) for protecting a surface subjected to high temperature environments of more than 3000 degree F. The coating includes a dense platelet lamellar microstructure with a self-sealing, compliant binder material for holding the platelets together. The platelets may be formed from materials that are resistant to high temperatures and impermeable, such as ceramics. The lamellar microstructure creates a tortuous path for oxygen to reach the surface. The binder material may have free internal volume to increase the strain capability between the platelets and absorb increased volume during operation. The binder may be formed from a material that is softer and has a lower temperature capability than the platelets to provide the system with the required compliance and sealing capability. The binder may have sufficient glass content and glass-forming content for initial and long-term sealing purposes. | 07-26-2012 |
20130022838 | Method of reducing plasma arcing on surfaces of semiconductor processing apparatus components in a plasma processing chamber - Specialty ceramic materials which resist corrosion/erosion under semiconductor processing conditions which employ a corrosive/erosive plasma. The corrosive plasma may be a halogen-containing plasma. The specialty ceramic materials have been modified to provide a controlled electrical resistivity which suppresses plasma arcing potential. | 01-24-2013 |
20130071689 | RARE EARTH ELEMENTS DOPING ON YTTRIUM OXIDE LUMINESCENT THIN FILM CONTAINING CONDUCTIVE OXIDES AND PREPARATION METHODS THEREOF - A rare earth elements doping on yttrium oxide luminescent thin film containing conductive oxides and preparation methods thereof are provided. The said luminescent thin film is consisted of Y | 03-21-2013 |
20130095348 | RECORDING LAYER FOR OPTICAL INFORMATION RECORDING MEDIUM AND OPTICAL INFORMATION RECORDING MEDIUM - An optical information recording medium includes a recording layer capable of recording information signals on the basis of application of light, wherein the recording layer contains an oxide of metal X and an oxide of metal Y, the metal X is at least one type selected from the group consisting of tungsten and molybdenum, and the metal Y is at least one type selected from the group consisting of copper, manganese, nickel, and silver. | 04-18-2013 |
20130136951 | PIEZOELECTRIC THIN FILM, METHOD FOR MANUFACTURING SAME, INKJET HEAD, METHOD FOR FORMING IMAGE USING INKJET HEAD, ANGULAR VELOCITY SENSOR, METHOD FOR MEASURING ANGULAR VELOCITY USING ANGULAR VELOCITY SENSOR, PIEZOELECTRIC POWER GENERATION ELEMENT, AND METHOD FOR GENERATING POWER USING PIEZOELECTRIC POWER GENERATION ELEMENT - Provided is a piezoelectric thin film including a non-lead-containing (that is, lead-free) ferroelectric material and having high piezoelectric performance comparable to that of PZT, and a method of manufacturing the piezoelectric thin film. The piezoelectric film according to the present invention comprises a laminate structure. The laminate structure comprises an electric film and a (1-x)(Na,Bi)TiO | 05-30-2013 |
20130149555 | TRANSPARENT CONDUCTIVE FILM AND MANUFACTURING METHOD THEREFOR - An object of the present invention is to manufacture a long transparent conductive film comprising a transparent film substrate and a crystalline indium composite oxide film formed on the transparent film substrate. The manufacturing method of the present invention includes an amorphous laminate formation step of forming an amorphous film of an indium composite oxide containing indium and a tetravalent metal on the long transparent film substrate with a sputtering method, and a crystallization step of continuously feeding the long transparent film substrate on which the amorphous film is formed into a furnace and crystallizing the amorphous film. The temperature inside the furnace in the crystallization step is preferably 170 to 220° C. The change rate of the film length in the crystallization step is preferably +2.5% or less. | 06-13-2013 |
20130224519 | Coating For Improved Wear Resistance - In one aspect, coated cutting tools are described herein which, in some embodiments, can demonstrate improved wear resistance in one or more cutting applications. In some embodiments, a coated cutting tool described herein comprises a substrate and a coating adhered to the substrate, the coating comprising an inner layer deposited by physical vapor deposition and an outer deposited by physical vapor deposition over the inner layer. | 08-29-2013 |
20130224520 | BISMUTH-SUBSTITUTED RARE-EARTH IRON GARNET CRYSTAL FILM AND OPTICAL ISOLATOR - [Object] To provide a bismuth-substituted rare-earth iron garnet crystal film (RIG) which has an insertion loss of less than 0.6 dB and which can be produced in a high yield, as well as an optical isolator. | 08-29-2013 |
20130280554 | TRANSPARENT CONDUCTIVE FILM AND MANUFACTURING METHOD THEREFOR - The present invention relates to a transparent conductive film which is excellent in dotting property under a heavy load and excellent in bending resistance. Provided is a transparent conductive film, comprising a flexible transparent base; and a transparent conductive layer formed on the flexible transparent base and including a crystalline indium/tin composite oxide, wherein a compressive residual stress of the transparent conductive layer is 0.4 to 2 GPa. | 10-24-2013 |
20130295414 | COMPOSITION FOR FERROELECTRIC THIN FILM FORMATION, METHOD FOR FORMING FERROELECTRIC THIN FILM, AND FERROELECTRIC THIN FILM FORMED BY THE METHOD THEREOF - Disclosed is a composition for ferroelectric thin film formation which is used in the formation of a ferroelectric thin film of one material selected from the group consisting of PLZT, PZT, and PT. The composition for ferroelectric thin film formation is a liquid composition for the formation of a thin film of a mixed composite metal oxide formed of a mixture of a composite metal oxide (A) represented by general formula (1): (Pb | 11-07-2013 |
20130323534 | FERROELECTRIC CRYSTAL FILM, ELECTRONIC COMPONENT, MANUFACTURING METHOD OF FERROELECTRIC CRYSTAL FILM, AND MANUFACTURING APPARATUS THEREFOR - There is provided a manufacturing method of a ferroelectric crystal film in which an orientation of a seed crystal film is transferred preferably and a film deposition rate is suitable for volume production. | 12-05-2013 |
20140212689 | FILM AND METHOD FOR MANUFACTURING SAME - Disclosed are a film with high strength which does not easily deteriorate, and a method for manufacturing the film. A step for manufacturing a film formed on the molding surface of a die, includes an initial film-forming step for forming, on the molding surface of the die, an initial film having a carbon film which has a plurality of nano-carbons, and to which a plurality of fullerenes are applied, and a nitrogen compound layer and a sulfurized layer which are situated between the carbon film and the die, and an intermittent heating step for intermittently heating the initial film formed in the initial film-forming step under a non-oxidizing atmosphere. | 07-31-2014 |
20140272467 | CALCIUM-MAGNESIUM-ALUMINOSILICATE RESISTANT COATING AND PROCESS OF FORMING A CALCIUM-MAGNESIUM-ALUMINOSILICATE RESISTANT COATING - A process of forming a calcium-magnesium-aluminosilicate (CMAS) penetration resistant coating, and a CMAS penetration resistant coating are disclosed. The process includes providing a thermal barrier coating having a dopant, and exposing the thermal barrier coating to calcium-magnesium-aluminosilicate and gas turbine operating conditions. The exposing forming a calcium-magnesium-aluminosilicate penetration resistant layer. The coating includes a thermal barrier coating composition comprising a dopant selected from the group consisting of rare earth elements, non-rare earth element solutes, and combinations thereof. Additional or alternatively, the coating includes a thermal barrier coating and an impermeable barrier layer or a washable sacrificial layer positioned on an outer surface of the thermal barrier coating. | 09-18-2014 |
20150044508 | RIGID DECORATIVE MEMBER - Provided is a rigid decorative member that has high film hardness, is excellent in scratch resistance performance and abrasion resistance performance, and has excellent color brightness and color saturation. The rigid decorative member of the present invention is a rigid decorative member wherein a reaction compound film of an alloy of Cr and a metal selected from one or two or more of Mo, W, Nb, Ta, Ti, Hf, Zr, and V, and of a non-metallic element selected from one or two or more of nitrogen, carbon, and oxygen is formed on a substrate. There is provided the rigid decorative member significantly improved in scratch resistance and abrasion resistance and having a color tone with a high quality feel; and there is further supplied a product of which the color tones of brightness and color saturation can be freely controlled. The rigid decorative member of the present invention includes the reaction compound film of the alloy of Cr, which is a metal having high adhesion to a metal and high brightness but having low hardness, and a metal having high film hardness and high corrosion resistance but having low brightness and low adhesion (Mo, W, Nb, Ta, Ti, Hf, Zr, V), and of the non-metallic element such as nitrogen, carbon, or oxygen. | 02-12-2015 |
20150099142 | SINTERED OXIDE COMPACT AND CIRCUIT BOARD USING SAME - Provided is a sintered oxide compact that has high electric conductivity and a small B-value (temperature coefficient), and is suitable for use as an electrically conductive material, and a circuit board that uses the sintered oxide compact. The sintered oxide compact is represented by a composition formula: REaCobNicOx (where RE represents a rare earth element, a+b+c=1, and 1.3≦x≦1.7), the sintered oxide compact includes a perovskite phase with a perovskite-type oxide crystal structure, and the a, b, and c satisfy the following relationships: | 04-09-2015 |
20150125717 | METHOD AND APPARATUS FOR GROWING INDIUM OXIDE (IN2O3) SINGLE CRYSTALS AND INDIUM OXIDE (IN203) SINGLE CRYSTAL - A method and apparatus for growing truly bulk In | 05-07-2015 |
20150321963 | MECHANICAL PART WITH A NANOSTRUCTURED TIO2-CR2O3 CERAMIC COATING AND METHOD FOR DEPOSITING A NANOSTRUCTURED TIO2-CR2O3 CERAMIC COATING ON A SUBSTRATE - There is provided a method for depositing a TiO | 11-12-2015 |
20160032489 | CRYSTALLINE STRONTIUM TITANATE AND METHODS OF FORMING THE SAME - Methods of forming a crystalline strontium titanate layer may include providing a substrate with a crystal enhancement surface (e.g., Pt), depositing strontium titanate by atomic layer deposition, and conducting a post-deposition anneal to crystallize the strontium titanate. Large single crystal domains may be formed, laterally extending greater distances than the thickness of the strontium titanate and demonstrating greater ordering than the underlying crystal enhancement surface provided to initiate ALD. Functional oxides, particularly perovskite complex oxides, can be heteroepitaxially deposited over the crystallized STO. | 02-04-2016 |
20160049577 | FEROELECTRIC CERAMICS AND METHOD FOR MANUFACTURING THE SAME - To enhance piezoelectric property. One aspect of the present invention is ferroelectric ceramics including a Pb(Zr | 02-18-2016 |
20160118574 | FERROELECTRIC CERAMICS, ELECTRONIC COMPONENT AND MANUFACTURING METHOD OF FERROELECTRIC CERAMICS - Ferroelectric ceramics including: a Pb(Zr | 04-28-2016 |