Patent application number | Description | Published |
20100051594 | MICRO-ARC ALLOY CLEANING METHOD AND DEVICE - A cleaning device and method utilizes an electric circuit including a power supply electrically attached through a first lead to the alloy structure and a second lead connected to a probe. A protective atmosphere is provided over the surface of the alloy that is to be cleaned. Electric energy supplied by the power source generates an electric arc between the probe and the surface of the structure within the protective atmosphere. The electric interaction created by the electric arc and the surface of the alloy removes built up undesired material. | 03-04-2010 |
20110223317 | DIRECT THERMAL STABILIZATION FOR COATING APPLICATION - A coating system includes a first work piece, a work piece support for holding the first work piece, a plasma-based coating delivery apparatus configured to apply a coating material to the first work piece in a plasma-based vapor stream, and a first electron gun configured to direct a first electron beam at the first work piece while the plasma-based coating delivery apparatus applies the coating to the first work piece for heating the first work piece being coated, wherein the first electron gun is configured to direct the first electron beam at a region of the first work piece facing away from the plasma-based coating delivery apparatus. | 09-15-2011 |
20110223353 | HIGH PRESSURE PRE-OXIDATION FOR DEPOSITION OF THERMAL BARRIER COATING WITH HOOD - An apparatus for coating a work piece includes a process chamber, a coating material supply apparatus located at least partially within the process chamber for delivering a coating material to the work piece, a pre-heater assembly adjoining the process chamber, and a support for holding the work piece. The pre-heater assembly includes a housing that opens to the process chamber, a thermal hood positioned within the housing and configured to reflect thermal energy for reflecting thermal energy toward the work piece. The support is movable to selectively move the work piece between a first position within the housing of the pre-heater assembly and a second position within the process chamber and outside the housing of the pre-heater assembly. | 09-15-2011 |
20110223354 | HIGH PRESSURE PRE-OXIDATION FOR DEPOSITION OF THERMAL BARRIER COATING - An apparatus for coating a work piece includes a process chamber, a coating material supply apparatus located at least partially within the process chamber for delivering a coating material to the work piece, a pre-heater assembly adjoining the process chamber, and a support for holding the work piece. The pre-heater assembly includes a housing that opens to the process chamber, a susceptor comprising a ceramic material positioned at least partially within the housing, and a pre-heater electron gun configured to configured to direct an electron beam at the susceptor such that the susceptor radiates heat toward the work piece. The support is movable to selectively move the work piece between a first position within the housing of the pre-heater assembly and a second position within the process chamber and outside the housing of the pre-heater assembly. | 09-15-2011 |
20110223355 | THERMAL STABILIZATION OF COATING MATERIAL VAPOR STREAM - A coating system includes a work piece, a coating delivery apparatus configured to apply a coating material to the work piece in a plasma-based vapor stream, and a first electron gun configured to direct a first electron beam at the plasma-based vapor stream for adding thermal energy to the coating material in the plasma-based vapor stream. | 09-15-2011 |
20110223356 | COATING APPARATUS AND METHOD WITH INDIRECT THERMAL STABILIZATION - An apparatus includes a work piece support for holding and selectively rotating a work piece, a coating delivery apparatus configured to apply a coating material to the work piece, a susceptor positioned adjacent to the work piece support, and a first electron gun configured to direct a first electron beam at the susceptor such that the susceptor radiates heat toward the work piece. | 09-15-2011 |
20110281107 | LAYERED THERMAL BARRIER COATING WITH BLENDED TRANSITION AND METHOD OF APPLICATION - A multilayer coating includes a bond coat layer and a first barrier layer applied on the bond coat layer. The first barrier layer has a compositional gradient comprising a majority of a first rare earth stabilized zirconia material proximate the bond coat layer to a majority of a second rare earth stabilized zirconia material away from the bond coat layer. The first and second rare earth stabilized zirconia materials are different. | 11-17-2011 |
20120282402 | Coating Methods and Apparatus - An apparatus deposits a coating on a part. The apparatus comprises a chamber and a sting assembly for carrying the part. The sting assembly is shiftable between: an inserted condition where the sting assembly holds the part within the chamber for coating; and a retracted condition where the sting assembly holds the part outside of the chamber. The apparatus comprises a source of the coating material positioned to communicate the coating material to the part in the inserted condition. The apparatus comprises a thermal hood comprising a first member and a second member. The second member is between the first member and the part when the part is in the inserted condition. The second member is carried by the sting assembly so as to retract with the sting assembly as the sting assembly is retracted from the inserted condition to the retracted condition. | 11-08-2012 |
20120328445 | GRIT BLAST FREE THERMAL BARRIER COATING REWORK - A grit blast free method of removing a ceramic thermal barrier layer from a turbine component is described. The method comprises removing the layer in an autoclave with a caustic medium followed by a low pressure water jet wash. The component is dried in a stream of hot dry nitrogen and a new thermal barrier coating is applied before the component reenters product flow. | 12-27-2012 |
20130065048 | LAYERED THERMAL BARRIER COATING WITH BLENDED TRANSITION AND METHOD OF APPLICATION - A multilayer coating includes a bond coat layer, a first barrier layer applied on the bond coat layer, and a second barrier layer applied on the first barrier layer. The first barrier layer has a compositional gradient comprising a majority of a first rare earth stabilized zirconia material proximate the bond coat layer to a majority of a second rare earth stabilized zirconia material away from the bond coat layer. The first and second rare earth stabilized zirconia materials are different. The second barrier layer has a compositional gradient comprising a majority of the second rare earth stabilized zirconia material to 100 wt % of a third rare earth stabilized zirconia material away from the first barrier layer. | 03-14-2013 |
20140030446 | METHOD OF APPLICATION FOR LAYERED THERMAL BARRIER COATING WITH BLENDED TRANSITION - A method includes generating a plasma plume with a plasma gun, delivering a plurality of coating materials to the plasma plume with a powder feeder assembly to vaporize the coating materials. The delivery includes delivering a first (bond coat) material from a first powder feeder to the plasma gun, ceasing delivery of the first material, increasing a rate of delivery of a second (rare earth stabilized zirconia) material from a second powder feeder to the plasma plume, increasing a rate of delivery of a third material (a rare earth stabilized zirconia material different from the second material) from a third powder feeder to the plasma plume, decreasing a rate of delivery of the second material, and decreasing a rate of delivery of the third material, and depositing the plurality of coating materials on a work piece to produce a layered coating with blended transitions between coating layers. | 01-30-2014 |