Class / Patent application number | Description | Number of patent applications / Date published |
428627000 | Boride, carbide or nitride component | 40 |
20090142615 | COMPOSITE STRUCTURE FOR MICROLITHOGRAPHY AND OPTICAL ARRANGEMENT - A composite structure for microlithography, in particular a holding device for a wafer, has two or more components, the surfaces of which are bonded together at least at one bond. At least one of the components consists of cordierite (Mg | 06-04-2009 |
20090197112 | Method for Substrate Stabilization of Diffusion Aluminide Coated Nickel-Based Superalloys - An article and method for stabilization of a nickel-based superalloy coated with a diffusion aluminide coating. The region below the aluminide coating is first carburized to form refractory carbides. The article is cleaned and masked as required so that regions that will not have an aluminide coating are not carburized. After placing the article into a furnace and heating in a non-oxidizing atmosphere to a carburizing temperature, a carburizing gas is introduced, and the near surface region is carburized to a depth of about 100 microns. Refractory carbides are formed in this region. When a diffusion aluminide coating is formed on the article, the refractory elements, being present as refractory carbides, are not available to form detrimental TCP phases. | 08-06-2009 |
20090297877 | Extreme low resistivity light attenuation anti-reflection coating structure in order to increase transmittance of blue light and method for manufacturing the same - An extreme low resistivity light attenuation anti-reflection coating structure in order to increase transmittance of blue light, includes a substrate and a coating module. The coating module is formed on a front surface of the substrate and composed of a plurality of silicon carbide compound coating layers, a plurality of Al-based oxide coating layers and a plurality of metal coating layers that are alternately stacked onto each other. | 12-03-2009 |
20100015468 | METHOD FOR MANUFACTURING METALLIZED ALUMINUM NITRIDE SUBSTRATE - A method for manufacturing metallized aluminum nitride substrate. The method includes: Step A for forming a high-melting point metal layer over a sintered aluminum nitride substrate; Step B for forming over the high-melting point metal layer an intermediate metal layer of at least one selected from the group of: nickel, copper, copper-silver, copper-tin, and gold by plate processing; and Step C for forming a surface metal layer containing silver as a main component over the intermediate metal layer by coating a silver paste whose glass component content is 1 mass % or less and firing under nonoxidizing atmosphere. By this method, it is capable of forming a glass component-free silver layer which is adhered at a high degree of adhesion strength onto the high-melting point metal layer formed over the aluminum nitride substrate as a top face by thick-film method using a silver paste which makes thick-membrane forming easier. | 01-21-2010 |
20100151272 | COATING PROCESS FOR FATIGUE CRITICAL COMPONENTS - A coating process for fatigue critical components is provided. The coating process comprises the steps of providing a substrate having a first modulus of elasticity, depositing a layer of a material having a second modulus of elasticity less than the first modulus of elasticity onto the substrate, and depositing a coating over the material layer. | 06-17-2010 |
20100255338 | DECORATIVE PART - [Subject] To provide a decorative part having a hardening layer containing Au on the surface, particularly a gold colored decorative part having gloss and color tone inherent in gold, high brightness and high quality. | 10-07-2010 |
20100304181 | PROTECTIVE COATINGS WHICH PROVIDE EROSION RESISTANCE, AND RELATED ARTICLES AND METHODS - A coating composition is described, having a first coating layer which includes a nickel-chromium matrix in which metal carbide particles are dispersed; and a hard, dense second coating layer disposed over the first coating layer. The second coating layer is formed from a metal nitride-type material, and has an average roughness of less than about 80 micro-inches (Ra). Related articles and processes are also disclosed. | 12-02-2010 |
20110200840 | CYLINDER WITH POLYCRYSTALLINE DIAMOND INTERIOR - A rigid composite structure includes a tubular body made from a metallic material and having a first bore formed therein along a longitudinal axis, and one or more segments formed from a super hard material disposed within the first bore. Each segment has a hole formed in the center thereof, and the segments may be positioned end-to-end and adjacent to one another to align the center holes about the longitudinal axis and form a second bore. The segments can be held under compression within the first bore of the tubular body. The segments may be made of super hard materials such as natural diamond, synthetic diamond, polycrystalline diamond, single crystalline | 08-18-2011 |
20110256419 | COMPOSITE MEMBER - A composite member suitable for a heat radiation member of a semiconductor element and a method of manufacturing the same are provided. This composite member is a composite of magnesium or a magnesium alloy and SiC, and it has porosity lower than 3%. This composite member can be manufactured by forming an oxide film on a surface of raw material SiC, arranging coated SiC having the oxide film formed in a cast, and infiltrating this coated SiC aggregate with a molten metal (magnesium or the magnesium alloy). The porosity of the composite member can be lowered by improving wettability between SiC and the molten metal by forming the oxide film. According to this manufacturing method, a composite member having excellent thermal characteristics such as a coefficient of thermal expansion not lower than 4 ppm/K and not higher than 10 ppm/K and thermal conductivity not lower than 180 W/m·K can be manufactured. | 10-20-2011 |
20110262769 | SURFACE HARDENED SUBSTRATE AND METHOD MAKING SAME - A surface hardened substrate includes a base, a transition layer disposed on a surface of the base, and a hard layer disposed on the transition layer. The transition layer includes at least two kinds of transition metals. The hard layer includes a composite that comprises the at least two kinds of transition metals and a nonmetal. | 10-27-2011 |
20110305920 | On The Production of Metal-Ceramic Compounds - The invention relates to a method for producing a ceramic-metal connection that is repeatedly subjected to great changes in temperature during use, in which the metal and ceramic are brazed to one another two-dimensionally. Here it is provided that the metal and ceramic are arranged against one another in a monitored manner, preferably in a displacement-monitored manner | 12-15-2011 |
20120100389 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate and a decorative layer formed on the anti-corrosion layer. The substrate is made of aluminum or aluminum alloy. The anti-corrosion layer is an aluminum layer. The coated article has improved corrosion resistance. | 04-26-2012 |
20120107643 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of magnesium or magnesium alloy. The anti-corrosion layer is a magnesium layer. The coated article has improved corrosion resistance. | 05-03-2012 |
20120135268 | PROCESS FOR JOINING STAINLESS STEEL PART AND SILICON NITRIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a stainless steel part and a silicon nitride ceramic part comprising: providing a stainless steel part, a SiN ceramic part, a Mo foil and a Fe foil; placing the SiN ceramic part, the Mo foil, the Fe foil, and the stainless steel part into a mold, the Mo foil and the Fe foil located between the SiN ceramic part and the stainless steel part, the Mo foil abutting the SiN ceramic part, the Fe foil abutting the stainless steel part and the Mo foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the stainless steel part, the SiN ceramic part, the Mo foil, and the Fe foil at least until the stainless steel part, the SiN ceramic part, the Mo foil and the Fe foil form a integral composite article. | 05-31-2012 |
20120135269 | COATED ARTICLE AND METHOD FOR MANUFACTURING - A coated article includes a substrate, a first magnesium-tin alloy layer, a tin layer, a second magnesium-tin alloy layer, a magnesium layer and a magnesium-nitrogen layer. The substrate is made of magnesium or a magnesium alloy. The substrate made of magnesium or magnesium alloy. The first magnesium-tin alloy layer formed on the substrate. The tin layer formed on the first magnesium-tin alloy layer. The second magnesium-tin alloy layer formed on the tin layer. The magnesium layer formed on the second magnesium-tin alloy layer. The magnesium-nitrogen layer formed on the magnesium layer. | 05-31-2012 |
20120141826 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of aluminum or aluminum alloy. The anti-corrosion layer is an aluminum-copper alloy layer. The coated article has improved corrosion resistance. | 06-07-2012 |
20120141827 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of magnesium or magnesium alloy. The anti-corrosion layer includes a magnesium layer formed on the substrate and a magnesium nitride layer formed on the magnesium layer. The coated article has improved corrosion resistance. | 06-07-2012 |
20120148865 | ARTICLE AND METHOD FOR MANUFACTURING ARTICLE - An article includes a niobium alloy substrate; an iridium layer deposited on the niobium alloy substrate; and a chromium oxygen-nitride layer deposited on the iridium layer opposite to the iridium layer. | 06-14-2012 |
20120148866 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a metal substrate and a hard coating formed on the substrate. The hard coating is a chromium nitride-silicon nitride compound layer. A method for applying the hard coating to the metal substrate is also described. | 06-14-2012 |
20120148867 | PROCESS FOR JOINING BRASS PART AND SILICON CARBIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a brass part and a silicon carbide ceramic part comprising: providing a brass part, a SiC ceramic part, a Ti foil and a Ni foil; placing the SiC ceramic part, the Ti foil, the Ni foil, and the brass part into a mold, the Ti foil and the Ni foil located between the SiC ceramic part and the brass part, the Ti foil abutting against the SiC ceramic part, the Ni foil abutting against the brass part and the Ti foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the brass part, the SiC ceramic part, the Ti foil, and the Ni foil at least until the brass part, the SiC ceramic part, the Ti foil and the Ni foil form a integral composite article. | 06-14-2012 |
20120148868 | PROCESS FOR JOINING BRONZE PART AND SILICON CARBIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a bronze part and a silicon carbide ceramic part comprising: providing a bronze part, a SiC ceramic part, a Al foil and a Ni foil; placing the SiC ceramic part, the Al foil, the Ni foil, and the bronze part into a mold, the Al foil and the Ni foil located between the SiC ceramic part and the bronze part, the Al foil abutting against the SiC ceramic part, the Ni foil abutting against the bronze part and the Al foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the bronze part, the SiC ceramic part, the Al foil, and the Ni foil at least until the bronze part, the SiC ceramic part, the Al foil and the Ni foil form a integral composite article. | 06-14-2012 |
20120148869 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of magnesium or magnesium alloy. The anti-corrosion layer includes a magnesium layer formed on the substrate and a magnesium oxynitride layer formed on the magnesium layer. The coated article has improved corrosion resistance. | 06-14-2012 |
20120164475 | COATED ARTICLE AND METHOD FOR MANUFACTURING COATED ARTICLE - An coated article includes a substrate; an chromium layer deposited on the substrate; and a silicon-nitride layer deposited on the chromium layer opposite to the substrate. | 06-28-2012 |
20120164476 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, a decorative layer formed on the anti-corrosion layer. The substrate is made of aluminum or aluminum alloy. The anti-corrosion layer is a silicon layer. The coated article has improved corrosion resistance. | 06-28-2012 |
20120164477 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article includes a substrate having a bonding layer, and a hard coating formed thereon, and in that order. The hard coating has a composition represented by the formula Ti | 06-28-2012 |
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. | 07-05-2012 |
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. | 07-05-2012 |
20120308844 | MULTI-COATED METALLIC PRODUCTS AND METHODS OF MAKING THE SAME - The present invention relates generally to methods for producing a coated jewelry article or a coated component of a jewelry article, comprising a jewelry article or a component of a jewelry article, a first metallic coating, and a second metallic coating. | 12-06-2012 |
20130029174 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The anti-corrosion layer is an amorphous alloy layer containing elements of iron, chromium, boron and M, wherein M is one or more selected from the group consisting of phosphorus, carbon and silicon. A method for making the coated article is also described. | 01-31-2013 |
20130029175 | Composite Material - A composite material has a cBN sintered body firmly bonded to a hard metal. The composite material includes a cBN sintered body, hard metal, and a bonding layer present between the cBN sintered body and the hard metal. The bonding layer includes a metal with a thickness of 0.1 to 5 μm. | 01-31-2013 |
20130084465 | Stainless Steel and Silver Colored PVD Coatings - A method of making a coated substrate comprises depositing a base layer onto a substrate to form a first coated substrate. A chromium nitride layer is then deposited onto the first coated substrate to form a second coated substrate. The chromium nitride has an atomic percent of nitrogen less that about | 04-04-2013 |
20130260172 | COATED TITANIUM ALLOY SURFACES - In one aspect, composite articles are described herein comprising a lightweight, high strength metal substrate and an abrasion resistant coating adhered to the substrate. In some embodiments, a composite article described herein comprises a titanium or titanium alloy substrate and a coating adhered to the substrate, the coating comprising particles disposed in a metal or alloy matrix. | 10-03-2013 |
20130330571 | METHOD AND APPARATUS FOR PROVIDING IMPROVED BACKSIDE METAL CONTACTS TO SILICON CARBIDE - Embodiments of a method and apparatus are disclosed for providing improved backside metal contacts to silicon carbide. Embodiments include depositing a barrier layer on the bottom surface of a silicon carbide wafer. The barrier layer is located between the silicon carbide wafer and a silicon layer. The silicon carbide wafer is separated into individual silicon carbide die. Embodiments further include mechanically scrubbing each silicon carbide die on the top surface of a package, forming a gold-silicon eutectic solder that bonds the silicon carbide die to the package. The barrier layer reduces or eliminates diffusion of species into the gold-silicon eutectic solder to reduce or eliminate voids in the gold-silicon eutectic solder. | 12-12-2013 |
20140004376 | HARD-FACED COMPOSITE ARTICLE | 01-02-2014 |
20140057130 | Flat Steel Product, Method for Production of a Flat Steel Product and Method for Production of a Component - A flat steel product which is provided for forming into a component by hot pressing and which has a base layer of steel on which is applied a Zn or a Zn alloy metallic protective coating for protecting against corrosion. On at least one of the free surfaces of the flat steel product, a separate cover layer is applied which contains an oxide, nitride, sulphide, carbide, hydrate or phosphate compound of a base metal. In addition, a method which allows the production of such a flat steel product, and a method which allows the production of a component from such a flat steel product. | 02-27-2014 |
20140199561 | COATED ARTICLE AND METHOD FOR MANUFACTURING SAME - A coated article includes a stainless steel substrate, a primer layer, a transition layer, and a hard layer formed directly on the stainless steel substrate in that order. The primer layer is a Ti layer. The transition layer is Ti | 07-17-2014 |
20150017468 | COATED TOOL AND METHODS OF MAKING AND USING THE COATED TOOL - An example of the coated tool disclosed herein includes a substrate, a metal layer established on the substrate, a continuous metal carbide layer established on the metal layer, and a smooth, continuous, terminated diamond like carbon (DLC) layer established on the metal carbide layer. The DLC layer is to prevent metal, from a workpiece upon which the tool is to act, from adhering to the tool. | 01-15-2015 |
20150111061 | HIGH STRAIN DAMPING METHOD INCLUDING A FACE-CENTERED CUBIC FERROMAGNETIC DAMPING COATING, AND COMPONENTS HAVING SAME - A method to increase the damping of a substrate using a face-centered cubic ferromagnetic damping coating having high damping loss attributes when a strain amplitude is 500-2000 micro-strain, and/or maximum damping loss attributes that occurs when the strain amplitude is greater than 250 micro-strain, and a turbine component having a face-centered cubic ferromagnetic damping coating. | 04-23-2015 |
20150111062 | HIGH STRAIN DAMPING METHOD INCLUDING A FACE-CENTERED CUBIC FERROMAGNETIC DAMPING COATING, AND COMPONENTS HAVING SAME - A method to increase the damping of a substrate using a face-centered cubic ferromagnetic damping coating having high damping loss attributes when a strain amplitude is 500-2000 micro-strain, and/or maximum damping loss attributes that occurs when the strain amplitude is greater than 250 micro-strain, and a turbine component having a face-centered cubic ferromagnetic damping coating. | 04-23-2015 |
20150314569 | STEEL SHEET AND FABRICATION METHOD THEREOF - Provided is a steel sheet including an. iron-based material, a first coating layer disposed on the iron-based material, and a second coating layer disposed on the first coating layer, wherein the first coating layer includes a zinc alloy and the second coating layer consists essentially of chromium and carbon. | 11-05-2015 |