Patent application number | Description | Published |
20080279335 | CAGE FOR X-RAY TUBE BEARINGS - A bearing assembly mounted in an x-ray tube includes a bearing race and a plurality of bearing balls positioned adjacent to the bearing race. The plurality of bearing balls are positioned within a bearing cage. The bearing cage is configured to evenly space the bearing balls within the bearing cage and prevent contact between adjacent bearing balls, thereby eliminating the problems of skidding wear and dynamic impact load between adjacent bearing balls in the bearing assembly. | 11-13-2008 |
20080279336 | METHOD FOR COATING A CARBON-CARBON COMPOSITE X-RAY TUBE BEARING CAGE - A method for manufacturing an x-ray tube bearing cage includes the step of forming a bearing cage from a carbon-carbon composite material. A coating is applied to the carbon-carbon composite bearing cage. The coating includes an outer layer formed of a dry film lubricant. The coated carbon-carbon composite bearing cage is included in a bearing assembly in the x-ray tube and forms a lubricious enclosure for bearing balls positioned therein to minimize wear and heat generation in the bearing assembly. | 11-13-2008 |
20090004379 | METHOD OF PREPARING WETTING-RESISTANT SURFACES AND ARTICLES INCORPORATING THE SAME - The present invention provides methods for manufacturing an article having a wetting-resistant surface. The method includes providing a mixture comprising a plurality of micron-sized first particles and a plurality of nano-sized second particles, and a binder; depositing the mixture onto a substrate to form a wetting-resistant surface via a thermal spray process. The mixture is deposited without substantial melting of the first and second particles. The wetting-resistant surface has wettability sufficient to generate, with a reference fluid, a static contact angle of greater than about 90 degrees. | 01-01-2009 |
20090285363 | APPARATUS FOR INCREASING RADIATIVE HEAT TRANSFER IN AN X-RAY TUBE AND METHOD OF MAKING SAME - A target assembly for generating x-rays includes a target substrate, and an emissive coating applied to a portion of the target substrate, the emissive coating comprising one or more of a carbide and a carbonitride. | 11-19-2009 |
20100027105 | ROBUST WINDOW FOR INFRARED ENERGY - Articles transparent to infrared radiation and resistant to impact and wear are provided. In one embodiment the article comprises a substrate and a composite coating disposed over the substrate and extending from an interface with the substrate to an external surface. The coating and the substrate are capable of transmitting infrared radiation. The composite coating comprises a first phase and a second phase, where the second phase has a higher resistance to erosive wear than the first phase. The coating comprises a compositional gradient proceeding from a first composition at the interface of the coating with the substrate to a second composition at the external surface, the first composition comprising a higher concentration of the first phase than that of the second composition. The first phase has at least one property selected from the group consisting of a) a coefficient of thermal expansion (CTE) that is within about plus or minus 3 parts per million per degree centigrade of a CTE of the substrate, and b) an index of refraction that is within a range from as high as about 0.1 plus the index of refraction of the substrate to as low as about the square root of the index of refraction of the substrate. | 02-04-2010 |
20100046717 | APPARATUS FOR INCREASING RADIATIVE HEAT TRANSFER IN AN X-RAY TUBE AND METHOD OF MAKING SAME - A target assembly for generating x-rays includes a target substrate, and an emissive coating attached to the target substrate, the emissive coating including a textured material including a plurality of granular protrusions arranged to increase gray body emissive characteristics of the target assembly above that of the target substrate. | 02-25-2010 |
20100055826 | Methods of Fabrication of Solar Cells Using High Power Pulsed Magnetron Sputtering - A method of fabricating a solar cell is provided. The method includes depositing a transparent conductive contact layer on a surface of a substrate, where the transparent conductive contact layer is configured to act as a front electrode for the solar cell, depositing a window layer over the transparent conductive contact layer, depositing an absorber layer on the window layer, wherein the absorber layer and the window layer are oppositely doped and form a semiconductor junction, and where at least one of the window layer or the absorber layer is deposited by employing high power pulsed magnetron sputtering, and depositing an electrically conductive film on the semiconductor junction, wherein the electrically conductive film is configured to act as a back electrode layer for the solar cell. | 03-04-2010 |
20100086397 | Surface Treatments for Turbine Components to Reduce Particle Accumulation During Use Thereof - A turbine engine component includes at least one treated surface wherein the treated surface has a surface roughness (Ra) of less than 12 microinches; and a hard coating disposed on the superfinished surface, wherein the hard coating is a nitride and/or a carbide material at a thickness of less than 50 microns formed using electron beam physical vapor deposition, cathodic arc evaporation, or magnetron sputtering. disclosed are methods for substantially preventing micropitting on a surface of a turbine engine component. | 04-08-2010 |
20100143620 | WETTING RESISTANT MATERIAL AND ARTICLES MADE THEREWITH - An article coated with a highly durable, wetting resistant coating is provided. The article comprises a coating that comprises a cermet material. The cermet material includes a nickel-bearing metal matrix and a phase disposed within the matrix. The phase includes an anion moiety, for example nitrogen, carbon, or boron; and a cation moiety, for example chromium, zirconium, titanium, vanadium, hafnium, niobium, or tantalum. The phase is present in the cermet at a level of at least about 5 volume %. | 06-10-2010 |
20100243056 | LAYER FOR THIN FILM PHOTOVOLTAICS AND A SOLAR CELL MADE THEREFROM - A photovoltaic device is provided comprising an absorber layer, wherein the absorber layer comprises a plurality of grains separated by grain boundaries. At least one layer is disposed over the absorber layer. The absorber layer comprises grain boundaries that are substantially perpendicular to the at least one layer disposed over the absorber layer. The plurality of grains has a median grain diameter of less than 1 micrometer. Further, the grains are either p-type or n-type. The grain boundaries comprise an active dopant. The active dopant concentration in the grain boundaries is higher than the effective dopant concentration in the grains. The grains and grain boundaries may be of the same type or opposite type. Further, when the grain boundaries are n-type the bottom of the grain boundaries may be p-type. A method of making the absorber layer is also disclosed. | 09-30-2010 |
20100247321 | ANTI-FOULING COATINGS AND ARTICLES COATED THEREWITH - An article including a metallic substrate is presented. The article further includes a sacrificial layer disposed on a surface of the substrate and an anti-fouling layer disposed on the sacrificial layer. The anti-fouling layer includes a metal-polymer composite. An article including an anti-fouling layer having a nitride is also presented. | 09-30-2010 |
20100259823 | NANOSTRUCTURED ANTI-REFLECTION COATINGS AND ASSOCIATED METHODS AND DEVICES - An anti-reflection coating is described. The coating is disposed on a surface of a substrate. The anti-reflection coating includes an array of substantially transparent nanostructures having a primary axis substantially perpendicular to the surface of the substrate. The array of substantially transparent nanostructures is characterized by a graded refractive index. In some embodiments, each of the nanostructures has a substantially uniform cross-sectional area along the primary axis. Related methods and devices are also described. | 10-14-2010 |
20100328896 | ARTICLE INCLUDING THERMAL INTERFACE ELEMENT AND METHOD OF PREPARATION - An article and method of forming the article is disclosed. The article includes a heat source, a heat-sink, and a thermal interface element having a plurality of freestanding nanosprings, a top layer, and a bottom layer. The nanosprings, top layer, and the bottom layers of the article include at least one inorganic material. The article can be prepared using a number of methods including the methods such as GLAD and electrochemical deposition. | 12-30-2010 |
20110135956 | METHOD OF JOINING MATERIALS, AND ARTICLES MADE THEREWITH - A method of joining a first component and a second component is provided. The first component has a surface that comprises at least about 75% by volume of a refractory metal. The second component has a coefficient of thermal expansion greater than a coefficient of thermal expansion of the first component. The method includes disposing a coating on the surface of the first component. The coating includes an adhesion layer and a wetting layer disposed over the adhesion layer. The method further includes disposing a bonding material between the first and second components and joining them. The bonding material has a melting temperature lower than a melting temperature of the second component. An article made using the method is also presented. | 06-09-2011 |
20110247687 | THIN FILM SOLAR CELL AND METHOD FOR MAKING THE SAME - A thin film solar cell comprises: a back contact layer, an absorber layer adjacent to the back contact layer and comprising an absorber material and a dopant, a buffer layer, a dopant barrier layer between the absorber layer and the buffer layer, and a window layer adjacent to the buffer layer. Associated method for making the thin film solar cell is also provided. | 10-13-2011 |
20120080306 | PHOTOVOLTAIC DEVICE AND METHOD FOR MAKING - One aspect of the present invention provides a method to make a film. The method includes providing a target comprising a semiconductor material within an environment comprising oxygen; applying a plurality of direct current pulses to the target to create a pulsed direct current plasma; sputtering the target with the pulsed direct current plasma to eject a material comprising cadmium and sulfur into the plasma; and depositing a film comprising the material onto a substrate. The target includes a semiconductor material that comprises semiconductor material comprises cadmium and sulfur. | 04-05-2012 |
20120083068 | PHOTOVOLTAIC DEVICE AND METHOD FOR MAKING - One aspect of the present invention provides a device that includes a substrate; a first semiconducting layer; a transparent conductive layer; a transparent window layer. The transparent window layer includes cadmium sulfide and oxygen. The device has a fill factor of greater than about 0.65. Another aspect of the present invention provides a method of making the device. | 04-05-2012 |
20120180858 | METHOD FOR MAKING SEMICONDUCTING FILM AND PHOTOVOLTAIC DEVICE - One aspect of the present invention provides a method to make a film. The method includes providing a target comprising a sulfide within an oxygen free environment; applying a plurality of direct current pulses to the target to create a pulsed direct current plasma; sputtering the sulfide target with the pulsed DC plasma to eject a material comprising sulfur into the plasma; and depositing a film comprising the ejected material onto a support. Another aspect of the present invention provides a method of making a photovoltaic device. | 07-19-2012 |
20130157405 | MANUFACTURING METHODS FOR SEMICONDUCTOR DEVICES - A method of manufacturing semiconductor assemblies is provided. The manufacturing method includes thermally processing a first semiconductor assembly comprising a first semiconductor layer disposed on a first support and thermally processing a second semiconductor assembly comprising a second semiconductor layer disposed on a second support. The first and second semiconductor assemblies are thermally processed simultaneously, and the first and second semiconductor assemblies are arranged such that the first semiconductor layer faces the second semiconductor layer during the thermal processing. | 06-20-2013 |
20130192667 | PHOTOVOLTAIC DEVICES AND METHOD OF MAKING - A photovoltaic device is presented. The photovoltaic device includes a transparent conductive layer; a window layer disposed on the transparent conductive layer; and an absorber layer disposed on the window layer. The window layer includes a low-diffusivity layer disposed adjacent to the transparent conductive layer and a high-diffusivity layer interposed between the low-diffusivity layer and the absorber layer. Method of making a photovoltaic device is also presented. | 08-01-2013 |