Class / Patent application number | Description | Number of patent applications / Date published |
228119000 | Repairing, restoring, or renewing product for reuse | 43 |
20080237306 | PREFORM AND METHOD OF REPAIRING NICKEL-BASE SUPERALLOYS AND COMPONENTS REPAIRED THEREBY - A process for repairing a turbine component of a turbomachine, as well as a sintered preform used in the process and a high gamma-prime nickel-base superalloy component repaired thereby. The sintered preform contains a sintered mixture of powders of a cobalt-base braze alloy and a cobalt-base wear-resistant alloy. The braze alloy constitutes at least about 10 up to about 35 weight percent of the sintered preform and contains a melting point depressant such as boron. The preform is formed by mixing powders of the braze and wear-resistant alloys to form a powder mixture, and then sintering the powder mixture. To use the preform, a surface portion of the turbine component is removed to expose a subsurface portion, followed by diffusion bonding of the preform to the subsurface portion to form a wear-resistant repair material containing the braze alloy dispersed in a matrix of the wear-resistant alloy. | 10-02-2008 |
20080245845 | BRAZING FORMULATION AND METHOD OF MAKING THE SAME - A braze formulation includes a novel promoter and a metal filler. The promoter includes a blend of potassium tetrafluoroaluminate and potassium tetrafluoroborate. The braze may be used for repairing cracks in a substrate. The braze has a low melt point, removes oxides from within cracks and has improved penetration into cracks for repair. | 10-09-2008 |
20080290137 | MICROWAVE BRAZING PROCESS - A process for heating a braze alloy by microwave radiation so that heating of the alloy is selective and sufficient to cause complete melting of the alloy and permit metallurgical bonding to a substrate on which the alloy is melted, but without excessively heating the substrate so as not to degrade the properties of the substrate. The process entails providing metallic powder particles having essentially the same metallic composition, with at least some of the particles being sufficiently small to be highly susceptible to microwave radiation. A mass of the particles is then applied to a surface of a substrate, after which the mass is subjected to microwave radiation so that the particles within the mass couple with the microwave radiation and sufficiently melt to metallurgically bond to the substrate. The microwave radiation is then interrupted and the mass is allowed to cool, solidify, and form a solid brazement. | 11-27-2008 |
20080308612 | MANUAL METHOD FOR REBALLING USING A SOLDER PREFORM - A method for manually reattaching solder balls onto a plurality of contact areas arranged in a pattern on a device to be reballed is provided. First, a single use preform with a plurality of solder balls arranged in a pattern corresponding to the pattern of contact areas on the device is provided. The solder balls are held in respective apertures in the preform by an adhesive layer on the preform that defines a closed end of the apertures and are partially exposed on one side of the preform. A solder paste or paste flux is applied to, at least, the contact areas of the device. The device is manually aligned with the exposed solder balls of the preform and the device and the exposed balls of the preform are manually brought into contact. The aligned device and preform are heated to reflow the solder balls onto the land areas of the device. The preform including the adhesive layer is then removed from the device with the solder balls being retained on the device. | 12-18-2008 |
20090001137 | GOLD/NICKEL/COPPER/TITANIUM BRAZING ALLOYS FOR BRAZING WC-Co TO TITANIUM AND ALLOYS THEREOF, BRAZING METHODS, AND BRAZED ARTICLES - A brazing material for brazing tungsten/carbide/cobalt substrates (e.g., wear pads) to substrates comprising titanium or alloys thereof (e.g., fan or compressor blades). The brazing material includes gold, nickel, copper, and titanium present in respective amounts to provide a post-braze hardness of between 450 and 600 KHN to thereby increase the impact resistance of the braze joint. The substrates may be brazed by induction heating at temperatures less than about 1800° F. (982° C.). | 01-01-2009 |
20090045245 | Solder repairing apparatus and method of repairing solder - A solder repairing apparatus includes a stage designed to place the surface of at least a specific part of an object along a reference plane within a specific spot defined on the stage. A heating unit applies a thermal energy to the specific spot. A dividing plate is designed to move into the specific spot in a vertical attitude perpendicular to the reference plane. The dividing plate exhibits a low solder wettability. The solder melts in response to the application of the thermal energy. When the dividing plate in the vertical attitude enters the specific spot, the dividing plate gets into the solder. Since the dividing plate exhibits a low solder wettability, the dividing plate repels the solder. The solder is divided into two parts. The division of the solder reliably eliminates a short circuit in the electronic circuit. | 02-19-2009 |
20090159645 | Brazing alloy compositions and methods - Various braze alloy compositions are described, along with methods for using them. In one instance, a boron-free, high-temperature braze alloy includes selected amounts of chromium, hafnium, and nickel. The braze alloy can be used, for example, as a component in a wide gap braze mixture where a higher or lower melting point superalloy and/or brazing powder is used. The braze alloys may permit joining or repairing of superalloy articles with complex shapes, and may be used in high temperature applications. In some other braze alloy embodiments, a nickel- or cobalt-based braze composition can contain selected amounts of boron, but includes restricted amounts of chromium. | 06-25-2009 |
20090184153 | Method of Producing a Welded Joint - A method of producing a welded joint between components of a turbomachine is described, in particular for the repair of components, wherein components are welded to one another along common edges in such a way that a pocket-like recess is incorporated in a first component, in particular in a replacement part, with which recess the first component is slipped onto a second component, in particular a component to be repaired, such that the second component bears with an end edge on a base of the pocket-like recess, and that the first component and the second component are then welded to one another. According to the invention, at least one cutout is incorporated in the first component in addition to the pocket-like recess in order to minimize heat transfer and the formation of component deformations during the subsequent welding of the components. | 07-23-2009 |
20090255981 | Method for Repairing Cracks in Components and Solder Material for Soldering Components - The invention relates to a method for repairing components that consist of a superalloy. The method comprises the following steps: a solder material is applied to the repair site; the repair site with the applied solder material is heated until the latter melts; and the melted solder material is left to solidify. A powder blend, whose average composition corresponds to the component alloy constitutes the solder material, the blend comprising at least one elementary powder of the component alloy as one powder type and/or a pre-alloy of the component alloy. | 10-15-2009 |
20090283572 | Method for Repairing Cracks in Components and Solder Material for Soldering Components - The invention relates to a method for repairing components that consist of superalloys, in particular for repairing components that consist of a superalloy with an aligned microstructure in such a way that the repaired site likewise has an aligned microstructure. The method comprises the following steps: a solder material is applied to the repair site; the repair site with the applied solder material is heated until the latter melts; and the melted solder material is left to solidify. The solder material is an alloy with the same alloy components as the component alloy. At least the fraction of one alloy component in the solder material composition is modified in relation to the fraction of that alloy component in the component alloy composition, in such a way that the melting temperature of the solder material is reduced in relation to the melting temperature of the component alloy. | 11-19-2009 |
20090289100 | Method and apparatus for rework soldering - A method is disclosed for performing rework soldering for removing an electronic component from a printed circuit board and re-soldering the electronic component to the printed circuit board. The method includes the steps of positioning a dual structure body including a heating member and a cooling member between a rework target and a non-rework target placed on the printed circuit board, the heating member and the cooling member being arranged facing each other with a slight space provided therebetween, the heating member being situated toward the rework target, the cooling member being situated toward the non-rework target; heating the heating member; and cooling the cooling member. | 11-26-2009 |
20090321500 | REPAIR APPARATUS AND REPAIR METHOD - A repair apparatus includes a heating head device configured to heat a soldering member, which is soldered to a circuit board. The heating head device includes a heating head and a contact member heated by the heating head. The contact member is formed of a material having a spring characteristic and a thermal conductivity higher than a thermal conductivity of the heating head. The contact member is configured to be brought into contact with a soldered surface of the soldering member with an elastic force so as to melt a solder joining the soldering member to the circuit board. | 12-31-2009 |
20100025454 | SOLDER ALLOYS AND PROCESS FOR REPAIRING A COMPONENT - Many known solder alloys according to prior art utilize silicon or boron as melting point reducers, which, however, form brittle phases that have an undesirable effect on the thermo-mechanical properties. The invention relates to a solder ally that comprises gallium and/or germanium, preferably forms the Y′ phase and has improved mechanical properties. | 02-04-2010 |
20100059572 | WELD REPAIR PROCESS AND ARTICLE REPAIRED THEREBY - A method for repairing a steel alloy article, and an article repaired thereby, is provided and comprises the steps of depositing at least a first weld repair layer on a surface of the article so as to form a heat affected zone in the article beneath the surface. Locally heat treating the first weld repair layer and at least a portion of the heat affected zone adjacent the first weld repair layer at a temperature above the critical A | 03-11-2010 |
20100108745 | METHOD FOR THE SOLDERING REPAIR OF A COMPONENT IN A VACUUM AND AN ADJUSTED PARTIAL OXYGEN PRESSURE - A method for the repair of a component by a solder is disclosed. The method is performed under specifically selected vacuum conditions in order to prevent oxidation and vaporization. | 05-06-2010 |
20100187290 | METHOD OF REPAIR - Provided is a method of repair which method is capable of holding a molten brazing material at the bonding portion when a component is bonded with a brazing material to an inclined or to a curved surface. The method of repair repairs by brazing a repair portion in which a crack has developed and which needs repair, wherein a brazing material support ( | 07-29-2010 |
20100237134 | Repair process for coated articles - A process for repairing a damaged portion of a thermal barrier coating on a turbine engine component includes sintering a mixture comprising particles of a bond coat and particles of a brazing alloy to form a composite preform; depositing a thermal barrier coating on the composite preform; contacting the composite preform with the deposited thermal barrier coating with an uncoated surface of the damaged portion of the turbine engine component; and heating the composite preform with the deposited thermal barrier coating to a temperature effective to form a brazed joint between the composite preform and the uncoated surface of the damaged portion of the turbine engine component. | 09-23-2010 |
20110062220 | SUPERALLOY COMPOSITION AND METHOD OF FORMING A TURBINE ENGINE COMPONENT - A nickel-base composition is disclosed that includes:
| 03-17-2011 |
20110068151 | METHOD OF ATTACHING A SOLDER BALL AND METHOD OF REPAIRING A MEMORY MODULE - In a method of attaching a solder ball, a first material is coated on a solder ball. A second material is coated on a pad of a substrate where the solder ball is to be attached to exothermically react with the first material. The solder ball makes contact with the pad such that the first material and the second material exothermically react with each other to release heat to adhere the solder ball to the pad using the heat. | 03-24-2011 |
20110132972 | MANUAL METHOD FOR REBALLING USING A SOLDER PREFORM - A method for manually reattaching solder balls onto a plurality of contact areas arranged in a pattern on a device to be reballed is provided. First, a single use preform with a plurality of solder balls arranged in a pattern corresponding to the pattern of contact areas on the device is provided. The solder balls are held in respective apertures in the preform by an adhesive layer on the preform that defines a closed end of the apertures and are partially exposed on one side of the preform. A solder paste or paste flux is applied to, at least, the contact areas of the device. The device is manually aligned with the exposed solder balls of the preform and the device and the exposed balls of the preform are manually brought into contact. The aligned device and preform are heated to reflow the solder balls onto the land areas of the device. The preform including the adhesive layer is then removed from the device with the solder balls being retained on the device. | 06-09-2011 |
20110174867 | PROCESS FOR BRAZING WIDE GAPS - A method for repairing wider gaps in a substrate of a component by brazing at a brazing temperature is provided. Filler material and solder are prevented from separating in that, in a two-stage process, first the filler material and then the solder are applied to the wider gap. The powder does not melt at the brazing temperature and the filler metal does melt at the brazing temperature. | 07-21-2011 |
20110240716 | METHODS FOR REWORK OF A SOLDER - Methods for reworking a solder containing one or more joined members are described herein. Such methods can include applying a disintegrating agent to a solder containing a solder material, disintegrating the solder material to form a disintegrated solder material, and removing the disintegrated solder material from the solder. Such methods can also include applying a disintegrating agent containing bismuth to a solder containing a solder material, and heating the solder to liquefy the disintegrating agent. Such methods can also include applying a disintegrating agent containing a bismuth alloy to a solder having a solder material that contains metal nanoparticles, and heating the solder to liquefy the bismuth alloy. | 10-06-2011 |
20110248071 | AUSTENITIC WELDING MATERIAL, AND PREVENTIVE MAINTENANCE METHOD FOR STRESS CORROSION CRACKING AND PREVENTIVE MAINTENANCE METHOD FOR INTERGRANULAR CORROSION, USING SAME - Disclosed is an austenitic welding material which contains C: 0.01 wt % or less, Si: 0.5 wt % or less, Mn: 0.5 wt % or less, P: 0.005 wt % or less, S: 0.005 wt % or less, Ni: 15 to 40 wt %, Cr: 20 to 30 wt %, N: 0.01 wt % or less, 0: 0.01 wt % or less, and the balance of Fe and inevitable impurities, wherein the content of B contained as one of the inevitable impurities in the welding material is 3 wt ppm or less, and the total content of C, P, S, N and O in the welding material is 0.02 wt % or less. | 10-13-2011 |
20120067939 | BRAZING FORMULATION AND METHOD OF MAKING THE SAME - A braze formulation includes a novel promoter and a metal filler. The promoter includes a blend of potassium tetrafluoroaluminate and potassium tetrafluoroborate. The braze may be used for repairing cracks in a substrate. The braze has a low melt point, removes oxides from within cracks and has improved penetration into cracks for repair. | 03-22-2012 |
20120125979 | REPAIR OF TURBINE COMPONENTS AND SOLDER ALLOY THEREFOR - A method for repairing a component of a gas turbine and a solder alloy are disclosed. In an embodiment, the method includes applying the solder alloy to the component in an area of the component having a punctiform damage or a linear imperfection, where the solder alloy is a mixture of a NiCoCrAlY alloy and a Ni-based solder. A molded repair part made of the solder alloy is applied to the component in an area of the component having a planar defect. The component is heat treated to solder the molded repair part on the component and to solder the solder alloy applied to the component in the area of the component having the punctiform damage or the linear imperfection. The component is cooled after the heat treating and, following the cooling, the component is further heat treated. | 05-24-2012 |
20120211548 | METHOD OF REPAIRING A COMPONENT - A method of repairing a component comprising: removing a damaged portion of the component to expose a region of the component; providing a patch having a rim exceeding the dimensions of the exposed region; placing the patch on the exposed region of the component such that the exposed region is covered by the patch and the rim is spaced apart from the exposed region; joining the patch to the component around the rim of the patch; and diffusion bonding the patch and the component together. The rim may be spaced apart from the exposed region such that the step of joining the patch to the component does not affect the exposed region. The method may further comprise machining a recess in the damaged region of the component. | 08-23-2012 |
20120223125 | Pre-Machined Window Weld for Breached Tubing - An example apparatus for replacement of a breached pipe section includes a first cylindrical pipe fitting having a first surface defining a first aperture, a middle pipe member, and a second cylindrical pipe fitting having a second surface defining a second aperture, and first and second aperture caps. A first end of each of the first and second pipe fittings is welded to opposite ends of the middle section, and a second end opposite of each of the first and second pipe fittings is welded through the respective first and second apertures to opposite ends of pipe surrounding the breached pipe section. The first and second aperture caps are welded to the apertures of the first and second pipe fittings to close the respective first and second apertures. | 09-06-2012 |
20120325898 | METHOD FOR REPAIRING A WELDED CONNECTION - A method produces a welded connection between first and second components each having inner and outer sides interconnected by an end face. The first component has a ferritic basic body carrying a plating at the inside and having an end face with a buffer layer of Ni-based alloy. The second component is of austenitic material. The end faces of the components enclose a weld groove. An austenitic root, connecting the plating to the end face of the second component, is welded in the weld groove. An intermediate layer of a nickel alloy having at least 90% nickel is welded onto the root. The intermediate layer is connected to the end faces of the plating and the second component. A weld seam is then produced in the remaining weld groove using a nickel-based welding additive. A method for repairing a welded connection between first and second components is also provided. | 12-27-2012 |
20130020377 | BRAZE ALLOY FOR HIGH-TEMPERATURE BRAZING AND METHODS FOR REPAIRING OR PRODUCING COMPONENTS USING A BRAZE ALLOY - In a Ni-based, Co-based, or Ni—Co-based braze alloy ( | 01-24-2013 |
20130112737 | COMPOSITE POWDER FOR DIFFUSION-BRAZING ASSEMBLY OR RESURFACING OF SUPERALLOY PARTS - The invention relates to a composite metal powder for diffusion-brazing assembly or resurfacing of parts ( | 05-09-2013 |
20130270325 | NICKEL-BASED SOLDER ALLOY - Solder alloy based on nickel is composed of a mixture with a first soldering material, a second soldering material, and a base material, wherein the base material is a nickel-based material which corresponds to the material to be soldered and is present in a proportion of 45-70% by weight in the mixture, the first soldering material is a nickel-based material including chromium, cobalt, tantalum, aluminum and boron, and is present in a proportion of 15-30% by weight in the mixture, and the second soldering material is a nickel-based material including chromium, cobalt, molybdenum, tungsten, boron and hafnium, and is present in a proportion of 15-25% by weight in the mixture. | 10-17-2013 |
20130299562 | COBALT-BASED ALLOY COMPRISING GERMANIUM AND METHOD FOR SOLDERING - Cobalt-based solder alloys are proposed. The cobalt-based solder alloys have germanium. The germanium has a higher melting point than nickel-based alloys such that the germanium is used advantageously for repairing or treating components having the nickel-based alloys used at high temperatures. The components are repaired or treated by soldering using the cobalt-based solder alloys. | 11-14-2013 |
20140166732 | METHOD OF REATTACHING AN END ASSEMBLY TO A WELL CAR - A method of shortening an end of a well car includes removing a plurality of parts that would inhibit the shortening process; cutting a shear plate and a set of side sill angles at a location on the well side of the end assembly; detaching the end assembly from a main body of the well car; on each side of the main body: cutting the top tube at a location above a monument plate that is just beyond a reinforcement plate attached to the monument plate; cutting through a weld between the monument and reinforcement plates and a side sheet; cutting through the side sheet generally at the attachment location of the monument and reinforcement plates; and cutting the shear plate of the main body with a contoured cut such that the remaining shear plate has a contoured pattern substantially matching the cut shear plate under the removed end assembly. | 06-19-2014 |
20140191017 | NICKEL-BASED ALLOY, USE AND METHOD - The invention relates to a novel alloy which comprises the elements carbon (C), chromium (Cr), cobalt (Co), molybdenum (Mo), tungsten (W), titanium (Ti), aluminium (Al), boron (B), and zirconium (Zr), based on nickel, and which has a very low tendency to form cracks during welding. | 07-10-2014 |
20140263579 | METHOD AND APPARATUS FOR FABRICATION AND REPAIR OF THERMAL BARRIERS - A thermal barrier tile ( | 09-18-2014 |
20150041522 | BLAZING METHOD - A brazing method includes fixing a padding plate on a base material such that the padding plate is arranged in a lower position from a groove formed in a repair region of the base material, and heating the base material such that a base material powder is melt, after a paste that base material | 02-12-2015 |
20150298266 | Two-Piece Replacement Nozzle - This invention provides an improved replacement nozzle configuration. The nozzle is provided in two pieces. A first nozzle piece is a relatively thin-walled cylinder that is inserted into the counterbored opening of a pressure vessel after the protruding portion of the original nozzle has been removed. A weld pad is attached to the pressure vessel, to which the first replacement nozzle piece is welded. Due to the reduced dimensions of the thin-walled first nozzle portion, a much smaller weld pad and pad-to-nozzle weld can be used. A second nozzle piece is positioned within the first nozzle piece and welded thereto. The existing instrumentation piping is connected to the free end of the second nozzle piece. This two-piece replacement nozzle can be implemented in approximately half the time required for the one-piece design. | 10-22-2015 |
20150321296 | REPAIR MATERIAL PREFORM - A structural element and method for repairing a damaged portion of a metal component utilizes a preform configured to engage with the metal component and receive a repair material. The preform may be made of a material having a first melting point, and the repair material may be made of a material having a second melting point that is lower than the first melting point. The preform may be a mold configured to reconstruct the shape of the damaged portion of the metal component. The repair material may include a first material and an additive material, such as boron. The repair material may have a melting point that is approximately 40 degrees Fahrenheit lower than the melting point of the metal component. | 11-12-2015 |
20150336217 | BORON-FREE SOLDER WITH MANGANESE AND GERMANIUM, POWDER AND REPAIR METHOD - A nickel-based alloy that includes at least nickel, manganese, and either germanium or both germanium and gallium, the alloy being free of boron or silicon, a solder based on the alloy, a powder based on the alloy, and a method of repairing a component with the alloy. | 11-26-2015 |
20150360328 | METHOD FOR HOLDING BRAZING MATERIAL DURING A BRAZING OPERATION - A method for holding a sintering filler material during a brazing/sintering operation for repairing a damaged area of a component wherein the component is in either a bonding face down position, bonding face vertical position or bonding face up position. The method includes providing a wire mesh and attaching the wire mesh to the component in a location corresponding to the damaged area. Further, the method includes forming a gap between the wire mesh and the component. Moreover, the sintering filler material may be inside the wire mesh or both inside and outside the wire mesh in order to secure the sintering filler material to the damaged area. | 12-17-2015 |
20160059360 | WELDING OF ALITIZED COMPONENTS AND AN ALITIZED COMPONENT - The welding can be carried out only after the partial removal of a necessary alitized portion prior to welding an alitized component. | 03-03-2016 |
20160107265 | METHOD OF FUSION WELDING - A method comprises fusion welding a filler metal to a first aluminum component; wherein the first aluminum component comprises a 7xxx series aluminum alloy; and wherein the filler metal comprises an aluminum alloy, in weight percent: up to 0.15 Fe; up to 0.15 Si; from 2.3 to 2.7 Mg; from 1.4 to 1.8 Cu; from 6.0 to 9.0 Zn; and from 0.06 to 0.14 Zr. In some embodiments, the 7xxx series aluminum alloy comprises 0.5-2.6 wt. % Cu. In some embodiments, the filler metal comprises, in weight percent, up to 0.45 Sc. | 04-21-2016 |
20160199930 | COMBINED BRAZE AND COATING METHOD FOR FABRICATION AND REPAIR OF MECHANICAL COMPONENTS | 07-14-2016 |