Patent application number | Description | Published |
20080305264 | THERMAL BARRIER COATING AND PROCESS THEREFOR - A thermal barrier coating and deposition process for a component intended for use in a hostile thermal environment, such as the turbine, combustor and augmentor components of a gas turbine engine. The TBC has a first coating portion on at least a first surface portion of the component. The first coating portion is formed of a ceramic material to have at least an inner region, at least an outer region overlying the inner region, and a columnar microstructure whereby the inner and outer regions comprise columns of the ceramic material. The columns of the inner region are more closely spaced than the columns of the outer region so that the inner region of the first coating portion is denser than the outer region of the first coating portion, wherein the higher density of the inner region promotes the impact resistance of the first coating portion. | 12-11-2008 |
20100104861 | METAL-FORMING TOOLS COMPRISING CEMENTED TUNGSTEN CARBIDE AND METHODS OF USING SAME - Metalforming tools comprising WC—Co cemented tungsten carbide are provided for warm and/or hot working operations. The WC—Co materials have controlled compositions and microstructures, resulting in properties that allow the material to be used in such warm and hot metalworking applications. | 04-29-2010 |
20110003075 | PROCESS AND APPARATUS FOR DEPOSITING A CERAMIC COATING - A process and apparatus for depositing a ceramic coating, such as a thermal barrier coating (TBC) for a gas turbine engine component. The process deposits a coating whose composition includes multiple oxide compounds and a carbon-based constituent, e.g., elemental carbon, carbides, and carbon-based gases. The process uses at least one evaporation source to provide multiple different oxide compounds and at least one carbide compound comprising carbon and an element. The evaporation source is evaporated to produce a vapor cloud that contacts and condenses on the component surface to form the ceramic coating, and particularly so that the coating comprises the oxide compounds, an oxide of the element of the carbide compound, and the carbide compound and/or a carbon-containing gas. The process is carried out with an apparatus comprising a coating chamber in which the evaporation source is present, and a device for evaporating the evaporation source. | 01-06-2011 |
20110016946 | Coated Tooling - A coated forming tool including a tool component and a wear resistant coating on at least a portion of the tool component. The wear resistant coating includes a bottom coating layer and a top coating layer. The top coating layer has a thickness from about 1 μm to about 12 μm and the coating has a thickness ratio of the bottom coating layer thickness to the top coating layer thickness from about 0.5 to about 5. | 01-27-2011 |
20110111945 | INERT HIGH HARDNESS MATERIAL FOR TOOL LENS PRODUCTION IN IMAGING APPLICATIONS - A tungsten carbide material for use in precision glass molding applications having 6.06-6.13 wt. % carbon, 0.20-0.55 wt. % grain growth inhibitor, less than 0.25 wt. % binder, less than 0.6% wt. % impurities, and balance being tungsten. The tungsten carbide material has a nominal grain size of less than 0.5 microns. | 05-12-2011 |
20120003425 | TiAIN COATINGS FOR GLASS MOLDING DIES AND TOOLING - A system for precision glass molding comprising a substrate and a coating. The substrate has less than 1.2 wt. % minor constituents. The coating comprises TiAl | 01-05-2012 |
20130078328 | Coated Pelletizing Dies - Pelletizing ring extrusion dies comprising a die body having a plurality of holes, wherein each hole has surface at least partially coated with a low-friction coating. The low-friction coatings reduce surface temperatures during operation of the dies, which reduces volatilization and inconsistent flow of the material being extruded. The pelletizing ring extrusion dies possess improved tool life due to the low-friction coatings. | 03-28-2013 |
20130078331 | COATED PELLETIZING EXTRUSION DIES AND METHOD FOR MAKING THE SAME - A pelletizing extrusion die comprising a die body contains a plurality of extrusion holes. Each of the extrusion holes is defined by a defining surface of the die body wherein at least a portion of the defining surface has a low-friction coating deposited thereon. A method for applying the low-friction coating to the defining surface wherein the applying step occurs at a temperature equal to less than about | 03-28-2013 |
20130336776 | CLOSED IMPELLER WITH A COATED VANE - A closed impeller has a base cover, which has a base interior surface, and a second cover. A vane, which has an inlet distal end and an outlet distal end, is on the base interior surface. The vane has low and high pressure side surfaces wherein they have a low or high pressure midpoint, respectively. A hard coating is on the low and high pressure side surfaces. The hard coating has a minimum low and high pressure coating thickness at their respective midpoints. The minimum low, as well as high, pressure coating thickness ranging between about 0.085 and about 0.8 of either one of the maximum outlet coating thickness at the outlet distal end or the maximum inlet coating thickness at the inlet distal end, respectively. | 12-19-2013 |
20130337221 | COATED MEMBER FOR MOVEMENT RELATIVE TO A SURFACE AND METHOD FOR MAKING THE COATED MEMBER - A coated member, as well as a method for making the coated member, adapted for movement relative to a surface wherein a clearance distance between the coated member and the surface exists in a critical region of the coated member. The coated member has a finished size in the critical region. The substrate has an undersized substrate region of a minimum undersizing depth, which is equal to about seventy-five percent of the clearance distance. The undersized substrate region corresponds to the critical region of the coated member. A finished coating scheme is on the undersized substrate region wherein the finished coating scheme is the result of an oversized coating scheme being finished to form the finished coating scheme wherein the coated member is of the finished size in the critical region. | 12-19-2013 |
20140072469 | INERT HIGH HARDNESS MATERIAL FOR TOOL LENS PRODUCTION - In one aspect, tungsten carbide material systems are described herein which, in some embodiments, can provide desirable characteristics including chemical inertness, high hardness, reduced sensitivity to local compositional fluctuations and/or enhanced machining properties. In some embodiments, a tungsten carbide material described herein comprises 5.85-6.13 wt. % carbon, 0.85-1.05 wt. % chromium, less than 0.3 wt. % binder, less than 0.3 wt. % impurities and a balance being tungsten. | 03-13-2014 |
Patent application number | Description | Published |
20080245649 | ELECTRICAL SWITCHING APPARATUS AND TRIP ACTUATOR RESET ASSEMBLY THEREFOR - A trip actuator reset assembly for a circuit breaker includes a cradle assembly, a reset lever, a trip actuator, and a resilient element. The cradle assembly is pivotably coupled to the circuit breaker pole shaft. The reset lever includes first and second ends, and a pivot pivotably coupling the reset lever to the circuit breaker housing. The resilient element is pivotably coupled to the housing proximate the second end of the reset lever. In response to a trip condition, an actuating element of the trip actuator moves the first end of the reset lever. To reset the trip actuator, a guide member guides the cradle assembly into engagement with the resilient element which pivots the reset lever. The first end of the reset lever then resets the trip actuator. After reset, if the cradle assembly continues to move, then the resilient element bends to accommodate the additional motion. | 10-09-2008 |
20080246565 | ELECTRICAL SWITCHING APPARATUS, AND TRIP ACTUATOR ASSEMBLY AND RESET ASSEMBLY THEREFOR - A trip actuator reset assembly for a circuit breaker includes a cradle assembly, a reset lever, a trip actuator, and a rigid element. The cradle assembly is pivotably coupled to the circuit breaker pole shaft, and includes a number of springs. A pivot pivotably couples the reset lever to the circuit breaker housing. In response to a trip condition, an actuating element of the trip actuator moves a first end of the reset lever. The rigid element is pivotably coupled to the housing proximate a second end of the reset lever. To reset the trip actuator, a guide member guides the cradle assembly into engagement with the rigid element which pivots the reset lever. The first end of the reset lever then resets the trip actuator. After reset, if the cradle assembly continues to move, then the springs accommodate the additional motion. | 10-09-2008 |
20080302640 | INTERLOCK ASSEMBLY FOR A STORED ENERGY MECHANISM - The stored energy device interlock assembly provided is structured to prevent the closing assembly and/or the latch assembly from being actuated in selected configurations. The interlock assembly includes a latch D-shaft link assembly, an on-command paddle assembly, and an on-command paddle actuator. The latch D-shaft link assembly is pivotally coupled to, and structured to rotate, the latch assembly D-shaft. The on-command paddle assembly is structured to move the D-shaft link assembly. The on-command paddle actuator is structured to move the on-command paddle assembly. The interlock assembly is structured to disengage the latch assembly D-shaft from the on-command paddle assembly in selected configurations of the electrical switching apparatus. The interlock assembly provided herein has two pivotal degrees of freedom as opposed to a pivotal degree of freedom and a sliding degree of freedom. | 12-11-2008 |
20100264001 | MECHANISM OR RESETTABLE TRIP INDICATOR MECHANISM FOR A CIRCUIT INTERRUPTER AND CIRCUIT INTERRUPTER INCLUDING THE SAME - A circuit interrupter mechanism includes a first member movable in a first longitudinal direction and an opposite second longitudinal direction, and a second member pivotal in a first pivotal direction and an opposite second pivotal direction. A first tab is fixedly coupled to one of the first and second members, and a second tab is pivotally coupled to the other of the members. The first tab engages and disengages from the second tab during movement of the first member in the first longitudinal direction and in the second longitudinal direction. The second tab pivots with respect to the other of the members when engaged by the first tab during movement of the first member in the first longitudinal direction. The second tab does not pivot with respect to the other of the members when engaged by the first tab during movement of the first member in the second longitudinal direction. | 10-21-2010 |
20110174599 | Cover Assembly With Electrical Switching Apparatus - An improved cover assembly for use with an electrical switching apparatus can be said to comprise a retention device that is structured to be disposed on the electrical switching apparatus and a cover that comprises an engagement element and that is disposed on the retention device. The cover is translatable between a first configuration and a second configuration and is configured such that a locking element will resist movement of the cover toward the second configuration. In the first configuration, the engagement element and the retention device confront one another to resist movement of the cover away from the electrical switching apparatus. However, in the second configuration, the engagement element and the retention device are clear of one another and enable the cover to be pivoted away from the electrical switching apparatus to provide access to the control elements of the switching apparatus. | 07-21-2011 |