Class / Patent application number | Description | Number of patent applications / Date published |
403272000 | Added bonding material, e.g., solder, braze, etc. | 77 |
20090041539 | SOLID STATE JOINING METHOD FOR COINTINUOUS STRUCTURES - Under one step of one embodiment of a solid state method for joining structures, angled edges of at least two structures are disposed adjacent to one another. In another step, a plurality of angled joining members are disposed adjacent to one another between the adjacent angled edges of the at least two structures. In still another step, the angled joining members are welded between the adjacent angled edges of the at least two structures. In yet another step, at least one hole is formed into and extended between adjacent edges of the welded angled joining members. In an additional step, a plug member is forced at least partially into the at least one hole. | 02-12-2009 |
20100080648 | PRODUCTION METHOD OF METAL PRODUCT, METAL PRODUCT, CONNECTION METHOD OF METAL COMPONENT AND CONNECTION STRUCTURE - A deposition is gradually formed by molding a product main body, removing a defect periphery including a defect generated on a surface to be treated of the product main body by molding so that a recess portion is formed on the surface to be treated of the product main body, employing a molded electrode composed of a molded body molded from a powder of a metal or the molded body processed with a heat treatment, and generating a pulsing electric discharge between the recess portion periphery including the recess portion and the molded electrode in an electrically insulating liquid or gas so that a material of the molded electrode or a reaction substance of the material carries out deposition and such at the recess portion periphery by energy of the electric discharge. | 04-01-2010 |
20110194891 | BRAZED JOINT BETWEEN A COOLING FLUID BOX AND AN ARMATURE BAR - A brazed joint between a cooling fluid box and an armature bar can comprise a cooling fluid box, a plurality of conductor strands, at least one side wall spacer, and at least one middle spacer. Each side wall spacer can have a tapered width and can be wedged between the plurality of conductor strands and an interior side wall of the cooling fluid box. Each middle spacer can have a tapered width and can be wedged between two columns of the conductor strands. The side wall spacers can taper in a direction opposite the taper of the middle spacers. In one embodiment, the cooling fluid box can move around the conductor strands. Each side wall spacer can be positioned against an interior surface of the cooling fluid box. Each middle spacer can be positioned between columns of conductor strands. The cooling fluid box can be withdrawn to a final position. | 08-11-2011 |
20110305506 | APPARATUS AND METHOD FOR DISSIMILAR WELDING OF ALLOY STEEL - A weld joint includes low and high alloy steel components. A weld bead between the low and high alloy steel components includes a first weld wire in contact with the low alloy steel component, a second weld wire in contact with the high alloy steel component, and a third weld wire between the first and second weld wires. The third weld wire has a higher percentage of chromium than the first weld wire and a lower percentage of chromium than the second weld wire. A method for welding includes applying a first weld wire to a low alloy steel component, applying a second weld wire to a high alloy steel component, and applying a third weld wire between the first and second weld wires. The third weld wire has a higher percentage of chromium than the first weld wire and a lower percentage of chromium than the second weld wire. | 12-15-2011 |
20120076574 | Vacuum Process Chamber Component and Methods of Making - A vacuum process chamber component comprising two separate pieces with an o-ring between the pieces and solder bonded together is described. The component may be an electrostatic chuck comprising a ceramic electrostatic puck and a metal baseplate with at least one o-ring therebetween and joined by a solder bond is described. Methods of making and using vacuum process chamber component are also described. | 03-29-2012 |
20120201596 | MODIFICATION OF SOLDER ALLOY COMPOSITIONS TO SUPPRESS INTERFACIAL VOID FORMATION IN SOLDER JOINTS - A solder joint comprising a solder capture pad on a substrate having a circuit; and a lead containing or a lead free solder selected from the group comprising Sn—Ag—Cu solder, Sn—Cu solder and Sn—Ag solder adhered to the solder capture pad; the solder selected from the group comprising between 0.1 and 6.0 percent by weight Zn. A solder joint, comprising a solder capture pad on a substrate having a circuit; and a Sn—Cu lead free solder adhered to the solder capture pad, the solder comprising between 0.1 and 6.0% by weight Zn. Formation of voids at an interface between the solder and the solder capture pad is suppressed. A method for forming solder joints using the solders. | 08-09-2012 |
20120269572 | FRAMING KIT AND FRAMING - A kit for preparing a two-dimensional or a three-dimensional framing for a plant pre-assembly includes a plurality of metallic prefabricated standard segments. Each of the standard segments has a hollow or solid profile section and plug-in socket system components such that the standard segments are connectable to each other, directly or indirectly and in a bearable manner via the plug-in socket system components, by at least one of screwing, soldering and welding to prepare or adapt the framing to a pre-assembly requirement of a plant or a component of the plant. | 10-25-2012 |
20120328361 | MN DOPED SN-BASE SOLDER ALLOY AND SOLDER JOINTS THEREOF WITH SUPERIOR DROP SHOCK RELIABILITY - A Sn—Ag—Cu-based lead-free solder alloy and solder joints thereof with superior drop shock reliability are disclosed. The solder comprises between greater than 0 wt. % and less than or equal to about 1.5 wt. % Ag; between greater than or equal to about 0.7 wt. % and less than or equal to about 2.0 wt. % Cu; between greater than or equal to about 0.001 and less than or equal to about 0.2 wt. % Mn; and a remainder of Sn. | 12-27-2012 |
20130004235 | METHOD FOR JOINING, ASSEMBLING PARTS MADE OF SiC-BASED MATERIALS BY NON-REACTIVE BRAZING, BRAZING COMPOSITIONS, AND JOINT AND ASSEMBLY OBTAINED BY SAID METHOD - A method for joining, assembling, at least two parts made of silicon carbide-based materials by non-reactive brazing is provided. According to the method, the parts are contacted with a non-reactive brazing composition, the assembly formed by the parts and the brazing composition is heated to a brazing temperature sufficient to melt the brazing composition totally or at least partly, and the parts and brazing composition are cooled to that, after solidification of the brazing composition, a moderately refractory joint is formed; wherein the non-reactive brazing composition is an alloy comprising, in atomic percentages, 45% to 65% silicon, 28% to 45% nickel and 5% to 15% aluminium. A brazing composition as defined above is provided. A brazing paste, suspension comprising a powder of said brazing composition and an organic binder as well as a joint and assembly obtained the foregoing method are also provided. | 01-03-2013 |
20130011185 | METHOD FOR ASSEMBLING, JOINING PARTS MADE OF SiC-BASED MATERIALS BY NON-REACTIVE BRAZING, BRAZING COMPOSITIONS, AND JOINT AND ASSEMBLY OBTAINED BY SAID METHOD - A method for joining, assembling, at least two parts made of silicon carbide-based materials by non-reactive brazing is provided. According to the method, the parts are contacted with a non-reactive brazing composition, the assembly formed by the parts and the brazing composition is heated to a brazing temperature sufficient to melt the brazing composition totally or at least partly, and the parts and the brazing composition are cooled so that, after solidification of the brazing composition, a moderately refractory joint is formed; wherein the non-reactive brazing composition is a binary alloy consisting in atomic percentages, of 60% to 66% silicon and 34 to 40% nickel. A brazing composition as defined above is also provided. A paste, suspension of braze alloy comprising a powder of the brazing composition and an organic binder is provided. In addition, a joint and assembly obtained with the foregoing method is provided. | 01-10-2013 |
20130028659 | APPARATUS AND METHOD FOR COHESIVE JOINING - The invention relates to an apparatus and to a process for cohesively joining two plates ( | 01-31-2013 |
20130034384 | WELDING METHOD AND WELDED JOINT STRUCTURE - The invention is a welding method capable of controlling an arc heat distribution on a groove face of a base metal, which comprises increasing or decreasing the melting rate of a welding wire relative to the feeding rate of the welding wire by changing the characteristic of an arc current to thereby change an arc generating position of a fusing end of the welding wire, wherein an AC arc welding operation is performed by changing the polarity of the welding wire as the characteristic of the arc current; and a welded joint structure formed by the welding method. | 02-07-2013 |
20130064602 | METHOD OF JOINING PARTS MADE OF SiC-BASED MATERIALS BY NON-REACTIVE BRAZING WITH ADDITION OF A REINFORCEMENT. BRAZING COMPOSITIONS AND JOINT AND ASSEMBLY THAT ARE OBTAINED BY SUCH A METHOD - A method for joining, assembling, at least two parts comprising silicon carbide-based materials is provided. The parts are contacted with a non-reactive brazing composition, the assembly having the parts and the brazing composition is heated to a brazing temperature sufficient to melt the brazing composition, and the parts and the brazing composition are cooled so that, after solidification of the brazing composition, a moderately refractory joint is formed. The brazing composition is a binary alloy consisting, in atomic percentages, of 60% to 66% silicon and 34% to 40% nickel. Prior to contacting the parts with the brazing composition, a reinforcement is added. A composition comprising the brazing composition and a reinforcement is provided. A brazing paste, suspension comprising a powder of the brazing composition, a reinforcement, and an organic liquid cement, binder, or an organic viscous gel is provided. A joint and assembly obtained by the foregoing method is provided. | 03-14-2013 |
20130078031 | ULTRAHIGH-STRENGTH WELDED JOINT AND PRODUCTION METHOD THEREOF - An ultrahigh-strength welded joint with superior strength and toughness, and a method for producing the ultrahigh-strength welded joint by means of single-pass welding by using laser hybrid welding, are provided, wherein the welded joint comprising a steel plate having a plate thickness of 4 mm to 12 mm and including weld metal of almost full martensite structure, wherein, in a cross-section of the welded joint in a direction perpendicular to a welding direction, a cross-sectional shape of the weld metal has a width W | 03-28-2013 |
20130142567 | DOPED 4N COPPER WIRES FOR BONDING IN MICROELECTRONICS DEVICES - A doped 4N copper wire for bonding in microelectronics contains one or more corrosion resistance dopant materials selected from Ag, Ni, Pd, Au, Pt, and Cr. A total concentration of the corrosion resistance dopant materials is between about 10 wt. ppm and about 80 wt. ppm. | 06-06-2013 |
20130142568 | 3N COPPER WIRES WITH TRACE ADDITIONS FOR BONDING IN MICROELECTRONICS DEVICES - A 3N copper wire with trace additions for bonding in microelectronics contains 3N copper and one or more corrosion resistance addition materials selected from Ag, Ni, Pd, Au, Pt, and Cr. A total concentration of the corrosion resistance addition materials is between about 90 wt. ppm and about 980 wt. ppm. | 06-06-2013 |
20130156493 | METHOD OF JOINING TITANIUM AND TITANIUM-BASED ALLOYS TO FERROUS METALS USING TANTALUM - A method of joining, e.g., by fusion welding, titanium, and titanium-based alloys to ferrous metals, and the intermetallic weld pool created by practice of the method is described. The instant invention involves the use, inclusion or deployment of tantalum into the weld pool and upon cooling a weld, to create a surprisingly strong intermetallic bond, weld, or joint. | 06-20-2013 |
20130189025 | METHOD FOR HIGH PRESSURE/HIGH VELOCITY WELDING OR JOINING FIRST AND SECOND METAL WORKPIECES BEFORE WELDING/JOINING; ARTICLE OF MANUFACTURE MADE THEREBY - A method is provided for forming a metallurgical bond. A first metal workpiece and one or more second metal workpieces are brought into proximity to one another such that a first portion of the first workpiece is in general overlying relationship with a second portion of the one or more second workpieces. A suitable material is provided between said first portion and said second portion, said material being in the form of particles or foil. At least a first part of said first workpiece comprising said first portion is forced toward said a part of the one or more second workpiece comprising said second portion by means of any one of a suitable high pressure joining process and a high speed joining process, such as to cause the said first metal workpiece and said one or more second metal workpieces to become joined or welded to one another to form a metallurgical bond therebetween. | 07-25-2013 |
20130216302 | METAL BONDING METHOD AND METAL BONDED STRUCTURE - The gap between first and second bonding portions is filled with a disperse solution obtained by dispersing copper micro-particles into a solution for copper oxide elution, so as to elute copper oxide configured as the outermost layer of the first bonding portion and copper oxide configured as the outermost layer of the second bonding portion, and copper oxide formed on the surface of each copper micro-particle. Pressure is applied to the first and second bonding portions using a press machine so as to raise the pressure of the disperse solution. At the same time, heat is applied under a relatively low temperature condition of 200° C. to 300° C., so as to remove the components contained in the disperse solution except for copper, thereby depositing copper. Thus, a first base portion and a second base portion are bonded via a copper bonded portion containing copper derived from the copper micro-particles. | 08-22-2013 |
20130236240 | JOINED PRODUCT - The present joined product is a joined product with a cemented carbide sintered compact serving as a first material to be joined and a cBN sintered compact serving as a second material to be joined, wherein: the first material to be joined and the second material to be joined are joined together via a joining material disposed therebetween and containing titanium (Ti); and a titanium nitride (TiN) compound layer having a thickness of 10-300 nm is produced at an interface between the second material to be joined and the joining material. | 09-12-2013 |
20130315659 | METALLIC COMPOSITIONS USEFUL FOR BRAZING, AND RELATED PROCESSES AND DEVICES - A braze alloy composition is disclosed, containing nickel, about 5% to about 40% of at least one refractory metal selected from niobium, tantalum, or molybdenum; about 2% to about 32% chromium; and about 0.5% to about 10% of at least one active metal element. An electrochemical cell that includes two components joined to each other by such a braze composition is also described. A method for joining components such as those within an electrochemical cell is also described. The method includes the step of introducing a braze alloy composition between a first component and a second component to be joined, to form a brazing structure. In many instances, one component is formed of a ceramic, while the other is formed of a metal or metal alloy. | 11-28-2013 |
20130315660 | PRESSURE RESISTANT AND CORROSION RESISTANT COPPER ALLOY, BRAZED STRUCTURE, AND METHOD OF MANUFACTURING BRAZED STRUCTURE - A pressure resistant and corrosion resistant copper alloy contains 73.0 mass % to 79.5 mass % of Cu and 2.5 mass % to 4.0 mass % of Si with a remainder composed of Zn and inevitable impurities, in which the content of Cu [Cu] mass % and the content of Si [Si] mass % have a relationship of 62.0≦[Cu]−3.6×[Si]≦67.5. In addition, the area fraction of the α phase “α”%, the area fraction of a β phase “β”%, the area fraction of a γ phase “γ”%, the area fraction of the κ phase “κ”%, and the area fraction of a μ phase “μ”% satisfy 30≦“α”≦84, 15≦“κ”≦68, “α”+“κ”≧92, 0.2≦“κ”/“α”≦2, “β”≦3, “μ”≦5, “β”+“μ”≦6, 0≦“γ”≦7, and 0≦“β”+“μ”+“γ”≦8. Also disclosed is a method of manufacturing a brazed structure made of the above pressure resistant and corrosion resistant copper alloy. | 11-28-2013 |
20130315661 | WELD METAL HIGHLY RESISTANT TO TEMPER EMBRITTLEMENT - This weld metal has a predetermined chemical composition, controls the number of oxides in accordance with size, and has an A value stipulated by the belowmentioned formula of no greater than 5.0. A value=(100×[C]−6×[insol.Cr]−2×[insol.Mo]−24×[insol.V]−13×[insol.Nb])×([Mo]−[insol.Mo]), where [insol.Cr], [insol.Mo], [insol.Nb], and [insol.V] are contents (in mass percent) of Cr, Mo, Nb, and V, respectively, present as a compound after stress-relief heat treatment, and [C] and [Mo] are contents (in mass percent) of C and Mo, respectively, contained in the weld metal. | 11-28-2013 |
20130343809 | SOLDER ALLOY - A Sn—Ag—Cu based solder alloy capable of increasing the connection reliability of a solder joint when evaluated in a high temperature environment is provided. The alloy has an alloy composition consisting essentially of, in mass percent, Ag: 1.0-5.0%, Cu: 0.1-1.0%, Sb: 0.005-0.025%, Fe: 0.005-0.015%, and a remainder of Sn. The Fe content in mass percent is 0.006-0.014%. The Sb content in mass percent is 0.007-0.023%. Preferably Fe:Sb as a mass ratio is 20:80-60:40. The total content of Fe and Sb is preferably 0.012-0.032%. | 12-26-2013 |
20140016995 | UNION BETWEEN DISSIMILAR MATERIALS - A sleeve is placed between a first body and second body, where the first body and the second body are different materials. The sleeve is a third material that is at least similar to the material of the first body, and a mechanical connection is made between the sleeve and the second body. The mechanical connection has a locking abutment where the surface of the sleeve is angled toward the end of the second body that is in the union, and this angled surface of the sleeve abuts the second body. A first connection substance is positioned between the sleeve and the first body, and a second connection substance is positioned between the sleeve and the second body. | 01-16-2014 |
20140023432 | FERRITIC STAINLESS STEEL EXCELLENT IN CORROSION RESISTANCE AND STRENGTH OF WELD ZONE AND TIG WELDED STRUCTURE - Ferritic stainless steel excellent in corrosion resistance of the weld zone, in particular the corrosion resistance to crevice corrosion, even if eliminating the Ar gas shield at the time of TIG welding and, furthermore, excellent in weld zone strength and a structure of the same are provided. By making the ingredient system one satisfying the following formula (1) in ferritic stainless steel which has predetermined contents of ingredients by mass % under a usual corrosive environment, it is possible to raise the corrosion resistance. Furthermore, under a severely corrosive environment, by making the relationship between the back surface exposed width of the weld bead and the steel sheet thickness satisfy the formula (2) in addition to the relationship of the ingredients prescribed in formula (1), it is possible to obtain a welded structure strong in crevice corrosion. Furthermore, by improving the weld strength by making the contents of Nb and V satisfy formula 3, it is possible to obtain a welded structure with a high weld strength: | 01-23-2014 |
20140037369 | LEAD-FREE SOLDER ALLOY - The present invention provides a lead-free solder alloy having high reliability and excellent solder bonding properties and suited for the mounting of micronized electronic components at low cost. The lead-free solder alloy according to the present invention has a composition containing 0.5 to 1.5 wt % of Ag, 0.3 to 1.5 wt % of Cu, 0.01 to 0.2 wt % of Ni, 1.0 wt % or less of Ga, and the balance being Sn and unavoidable impurities. | 02-06-2014 |
20140044479 | HIGH-TEMPERATURE LEAD-FREE SOLDER ALLOY - A Sn—Sb—Ag—Cu based high-temperature lead-free solder alloy which has excellent connection reliability and which does not form a low melting point phase even when solidified by slow cooling is provided. It has an alloy composition consisting essentially of, in mass percent, Sb: 35-40%, Ag: 13-18%, Cu: 6-8%, and a remainder of Sn. | 02-13-2014 |
20140079472 | PASTE FOR JOINING COMPONENTS OF ELECTRONIC MODULES, SYSTEM AND METHOD FOR APPLYING THE PASTE - The invention relates to a paste, preferably for joining components of power electronics modules, the paste comprising a solder powder, a metal powder and a binder, wherein the binder binds solder powder and metal powder before a first heating. According to the invention, the binder is free of flux or is a flux having only low activation. In this way, a joining layer which exhibits only few included voids and good mechanical and electrical stability can be provided between a first and a second component. | 03-20-2014 |
20140086670 | JOINT OF METAL MATERIAL AND CERAMIC-CARBON COMPOSITE MATERIAL, METHOD FOR PRODUCING SAME, CARBON MATERIAL JOINT, JOINTING MATERIAL FOR CARBON MATERIAL JOINT, AND METHOD FOR PRODUCING CARBON MATERIAL JOINT - Provided are a joint of a metal material and a ceramic-carbon composite material which can be used at high temperatures, a method for producing the same, a novel carbon material joint, a jointing material for a carbon material joint, and a method for producing a carbon joint. A joint | 03-27-2014 |
20140112710 | Solder Alloy for Power Devices and Solder Joint Having a High Current Density - A solder joint which is used in power devices and the like and which can withstand a high current density without developing electromigration is formed of a Sn—Ag—Bi—In based alloy. The solder joint is formed of a solder alloy consisting essentially of 2-4 mass % of Ag, 2-4 mass % of Bi, 2-5 mass % of In, and a remainder of Sn. The solder alloy may further contain at least one of Ni, Co, and Fe. | 04-24-2014 |
20140126955 | SOLDER JOINT WITH A MULTILAYER INTERMETALLIC COMPOUND STRUCTURE - A solder joint with a multilayer IMC structure is provided. The solder joint includes a Cu pad, a Sn-based solder, a first, a second, and a third IMC layer. The Cu pad is disposed opposite to the Sn-based solder. The first IMC layer is disposed between the Cu pad and the Sn-based solder. The first IMC layer is a Cu | 05-08-2014 |
20140126956 | SOLDER JOINT STRUCTURE AND SOLDER JOINING METHOD - A solder joint structure includes a metal pin in the shape of a prism or a circular or substantially circular cylinder; an aluminum wire including a wound portion wound around the metal pin; and a solder layer arranged to join the metal pin and at least one portion of the wound portion to each other. The at least one portion of the wound portion includes a deformed surface resulting from a partial disappearance or elimination of the aluminum wire in a cross-section perpendicular or substantially perpendicular to a direction in which the aluminum wire extends, and the solder layer is directly and closely adhered to the deformed surface. | 05-08-2014 |
20140186101 | AUSTENITIC STEEL WELDED JOINT - An austenitic steel welded joint is produced by gas tungsten arc welding an austenitic steel base metal with a welding material of austenitic steel having a composition comprising: C≦0.1%; Si≦0.8%; Mn: 1.5 to 5.5%; Ni: 8 to 15%; Cr: 18 to 24%; Al<0.05%; N: 0.15 to 0.35%; and one or more of V≦0.5%, Nb≦0.5%, and Mo≦4.5% if necessary, the balance being Fe and impurities that contain O≦0.02%, P≦0.05%, and S≦0.03%. The chemical composition satisfies [413−462(C+N)−9.2Si−8.1 Mn−13.7Cr−9.5Ni−18.5Mo≦−70]. The amount of ferrite of the weld metal is 20% or less in area ratio. The welded joint has high strength and excellent hydrogen embrittlement resistance and is useful in high-pressure hydrogen gas piping where no postweld heat treatment is performed. | 07-03-2014 |
20140186102 | COMPOSITIONS FOR JOINING AND ASSEMBLING PARTS MADE OF SiC-BASED MATERIALS - A method for joining, assembling, at least two parts made of silicon carbide-based materials by non-reactive brazing is provided. According to the method, the parts are contacted with a non-reactive brazing composition, the assembly formed by the parts and the brazing composition is heated to a brazing temperature sufficient to melt the brazing composition totally or at least partly, and the parts and brazing composition are cooled to that, after solidification of the brazing composition, a moderately refractory joint is formed; wherein the non-reactive brazing composition is an alloy comprising, in atomic percentages, 45% to 65% silicon, 28% to 45% nickel and 5% to 15% aluminium. A brazing composition as defined above is provided. A brazing paste, suspension comprising a powder of said brazing composition and an organic binder as well as a joint and assembly obtained the foregoing method are also provided. | 07-03-2014 |
20140199115 | SOLDER COMPOSITIONS - A solder composition comprising a blend of a first powder component and a second powder component, wherein the first powder component is a first solder alloy and the second powder component is a second solder alloy or a metal. | 07-17-2014 |
20140205370 | VEHICLE HAVING A NANOCOMPOSITE OPTICAL CERAMIC DOME - A vehicle, such as a missile, is disclosed. The vehicle includes an optically transparent dome, a vehicle body, and a brazed joint directly coupling the dome to the vehicle body. The dome is formed of a Nanocomposite Optical Ceramic (NCOC) material comprising two or more different types of nanograins dispersed in one another. Each nanograin type has a coefficient of thermal expansion (CTE), and an aggregate CTE of the NCOC material is based on the CTE of each nanograin type. | 07-24-2014 |
20140212208 | BRAZING PROCESS AND PLATE ASSEMBLY - A brazing process and plate assembly are disclosed. The brazing process includes positioning a braze foil on a first workpiece, then securing the braze foil to the first workpiece to form a brazable component, then positioning a second workpiece proximal to the brazable component, and then brazing the second workpiece to the brazable component. Additionally or alternatively, the brazing process includes positioning the braze foil on a tube, then securing the braze foil to the tube to form a brazable tube, then positioning a plate of a plate assembly proximal to the brazable tube, and then brazing the plate to the brazable tube. The plate assembly includes a plate and a tube brazed to the plate by a braze foil secured to the tube. | 07-31-2014 |
20140219711 | HIGH IMPACT TOUGHNESS SOLDER ALLOY - High Impact Toughness Alloy The invention provides an alloy, preferably a lead-free solder alloy, comprising: from 35 to 59% wt Bi; from 0 to 0.0 wt % Ag; from 0 to 1.0% wt Au; from 0 to 1.0% wt Cr; from 0 to 2.0% wt In; from 0 to 1.0% wt P; from 0 to 1.0% wt Sb; from 0 to 1.0% wt Sc; from 0 to 1.0% wt Y; from 0 to 1.0% wt Zn; from 0 to 1.0% wt rare earth elements; one or more of: 10 from greater than 0 to 1.0% wt Al; from 0.01 to 1.0% wt Ce; from greater than 0 to 1.0% wt Co; from greater than 0 to 0.0% wt Cu; from 0.001 to 1.0% wt Ge; from greater than 0 to 0.0% wt Mg; from greater than 0 to 1.0% wt Mn; from 0.01 to 1.0% wt Ni; and from greater than 0 to 1.0% wt Ti, and the 1 balance Sn, together with any unavoidable impurities. | 08-07-2014 |
20140301776 | WELDING METHOD AND WELD JOINT - Provided are a welding method and a weld joint with which the fatigue strength of the box-welded joint of a gusset plate and a high-tensile steel can be dramatically improved. A welding method whereby a gusset plate is welded to high-tensile steel by means of box-welding, with a bead having a length of 17 mm or greater being formed at the ends of the gusset plate in the lengthwise direction using a welding material for which the martensite transformation starting temperature of the weld metal is 350° C. or less. In addition, a weld joint formed by welding a gusset plate to high-tensile steel using the aforementioned method; a method for repairing or reinforcing a box-welded part. | 10-09-2014 |
20140321905 | JOINT PART - Provided is joint part capable of suppressing diffusion of carbon and nitrogen contained in the steel member to the TiAl-based alloy member and suppressing formation of voids, titanium carbide or a nitride due to diffusion of carbon and nitrogen contained in the steel member, and thereby suppressing decrease in the brazing strength. A joint part comprises a steel member containing alloy elements including C and Cr, a TiAl-based alloy member, and a Ni-based brazing filler metal via which the steel member and the TiAl-based alloy member are joined to each other, wherein the steel member has a carbide and a nitride each forming a bond with at least one of the alloy elements at least on a side of a boundary with the Ni-based brazing filler metal, and diffusion of C and N to the Ni-based brazing filler metal adjacent to the TiAl-based alloy member is suppressed by the carbide and the nitride. The joint part may be a turbine body | 10-30-2014 |
20140328615 | METHOD FOR ASSEMBLING PARTS MADE OF SIC MATERIALS BY MEANS OF NON-REACTIVE BRAZING IN AN OXIDIZING ATMOSPHERE, BRAZING COMPOSITIONS, AND GASKET AND ASSEMBLY OBTAINED BY SAID METHOD - A method is described for assembling at least two parts made of silicon carbide based materials by non-reactive brazing in an oxidizing atmosphere, each of the parts comprising a surface to be assembled, wherein the parts are placed in contact with a non-reactive brazing composition, the assembly formed by the parts and the brazing composition is heated to a brazing temperature sufficient for completely or at least partially melting the brazing composition, or rendering the brazing composition viscous, and the parts and the brazing composition are cooled so as to form, after cooling the latter to ambient temperature, a moderately refractory joint. The non-reactive brazing composition is a composition A consisting of silica (SiO | 11-06-2014 |
20140348576 | JOINING METHOD AND JOINING COMPONENT - In joining members to be joined ( | 11-27-2014 |
20140356056 | HYBRID DIFFUSION-BRAZING PROCESS AND HYBRID DIFFUSION-BRAZED ARTICLE - A hybrid diffusion-brazing process and hybrid diffusion-brazed article are disclosed. The hybrid diffusion-brazing process includes providing a component having a temperature-tolerant region and a temperature-sensitive region, brazing a braze material to the temperature-tolerant region during a localized brazing cycle, then heating the component in a furnace during a diffusion cycle. The brazing and the heating diffusion-braze the braze material to the component, and the localized brazing cycle is performed independent of the diffusion cycle in the hybrid diffusion-brazing process. The hybrid diffusion-brazed article includes a component, and a braze material diffusion-brazed to the component with a filler material. The filler material has a melting temperature that is above a tolerance temperature of the component. | 12-04-2014 |
20140363221 | JOINING METHOD, JOINT STRUCTURE AND METHOD FOR PRODUCING THE SAME - A first joining object and a second joining object are joined to each other using an insert material. The first joining object and/or the second joining object has a first metal composed of Sn or an alloy containing Sn. The insert material contains, as a main component, a second metal which is an alloy containing at least one selected from among Ni, Mn, Al and Cr, and Cu, and is located between the first joining object and the second joining object. When subjected to heat treatment to produce an intermetallic compound of the first metal and the second metal, the first joining object and the second joining object are joined to each other. | 12-11-2014 |
20150030382 | HOT-FORMED PREVIOUSLY WELDED STEEL PART WITH VERY HIGH MECHANICAL RESISTANCE AND PRODUCTION METHOD - The invention relates principally to a welded steel part with a very high mechanical strength characteristics obtained by heating followed by hot forming, then cooling of at least one welded blank obtained by butt welding of at least one first and one second sheet consisting at least in part of a steel substrate and a pre-coating which is constituted by an intermetallic alloy layer in contact with the steel substrate, topped by a metal alloy layer of aluminum or aluminum-based alloy. | 01-29-2015 |
20150037087 | Lead-Free Solder Alloy - A lead-free solder alloy consisting essentially of, in mass percent, Bi: 31-59%, Sb: 0.15-0.75%, at least one element selected from Cu: 0.3-1.0% and P: 0.002-0.055%, and a balance of Sn has a low melting point for suppressing warping of a thin substrate during soldering. It can form solder joints with high reliability even when used for soldering to electrodes having a Ni coating which contains P, since the growth of a P-rich layer is suppressed so that the shear strength of the joints is improved and the alloy has a high ductility and a high tensile strength. | 02-05-2015 |
20150037088 | Lead-Free Solder Alloy - A lead-free solder alloy capable of forming solder joints in which electromigration and an increase in resistance during electric conduction at a high current density are suppressed has an alloy composition consisting essentially of 1.0-13.0 mass % of In, 0.1-4.0 mass % of Ag, 0.3-1.0 mass % of Cu, a remainder of Sn. The solder alloy has excellent tensile properties even at a high temperature exceeding 100° C. and can be used not only for CPUs but also for power semiconductors. | 02-05-2015 |
20150056005 | PROCESS FOR PRODUCING WELDED JOINT, AND WELDED JOINT - Provided is a process for producing a welded joint which includes a weld metal having high strength and high toughness, and containing fewer blowholes. The process for producing a welded joint according to the present embodiment includes the steps of: preparing a base material containing, by mass %, not less than 10.5% of Cr; and subjecting the base material to GMA welding using a shielding gas containing 1 to 2 volume % or 35 to 50 volume % of CO | 02-26-2015 |
20150056006 | TITANIUM WELDING WIRE, ULTRASONICALLY INSPECTABLE WELDS AND PARTS FORMED THEREFROM, AND ASSOCIATED METHODS - A welding wire formed of a trace boron titanium base alloy is provided, along with welds formed from the wire and articles comprising one or more of such welds. A method may include forming such a weld or welds from such a welding wire, and may also include non-destructively inspecting titanium alloy articles comprising one or more of such welds using ultrasonic waves to detect internal flaws. | 02-26-2015 |
20150078810 | SOLDER PREFORMS AND SOLDER ALLOY ASSEMBLY METHODS - A method of assembling components, such as electronic components, onto a substrate, such as an electronic substrate, includes applying solder paste to an electronic substrate to form a solder paste deposit, placing a low temperature preform in the solder paste deposit, processing the electronic substrate at a reflow temperature of the solder paste to create a low temperature solder joint, and processing the low temperature solder joint at a reflow temperature that is lower than the reflow temperature of the solder paste. Other methods of assembling components and solder joint compositions are further disclosed. | 03-19-2015 |
20150086263 | Solder Alloy - A solder alloy has an alloy composition containing Zn of 3 through 25 mass %, Ti of 0.002 through 0.25 mass %, Al of 0.002 through 0.25 mass % and balance of Sn, a solder joint made of the solder alloy, and a jointing method using the solder alloy. | 03-26-2015 |
20150093188 | BRAZE ALLOY LAYERED PRODUCT - The present invention relates to a method for providing a braze alloy layered product comprising the following steps: —applying at least one silicon source and at least one boron source on at least a part of a surface of a substrate, wherein the at least one boron source and the at least one silicon source are oxygen free except for inevitable amounts of contaminating oxygen, and wherein the substrate comprises a parent material having a solidus temperature above 1100° C.; —heating the substrate having the applied boron source and the applied silicon source to a temperature lower than the solidus temperature of the parent material of the substrate; and cooling the substrate having the applied boron source and the applied silicon source, and obtaining the braze alloy layered product. The present invention relates further to a braze alloy layered product, a method for providing a brazed product, a method for providing a coated product, and uses of the braze alloy layered product. | 04-02-2015 |
20150110548 | CONTROLLABLY-FORMED BRAZING STRUCTURES AND RELATED COMPOSITIONS AND METHODS - The present disclosure provides compositions and methods for forming three-dimensional structures atop substrates. These structures may be formed and processed so as to braze together two substrates. The structures may be controllably formed in three dimensions so as to accommodate virtually any substrate geometry or configuration. The structures may also be disposed so as to maintain spacing between two surfaces. | 04-23-2015 |
20150117937 | FLUX-CORED WIRE FOR WELDING ULTRAHIGH TENSILE STRENGTH STEEL - In a flux-cored wire for welding an ultrahigh tensile strength steel, one or more of CaF | 04-30-2015 |
20150306710 | High Strength Ni-Cr-Mo-W-Nb-Ti Welding Product and Method of Welding and Weld Deposit Using the Same - A welding filler metal or a welding filler metal product having, in weight percent: 17.0-23.0% chromium, 5.0-12.0% molybdenum, 3.0-11.0% tungsten, 3.0-5.0% niobium, 0-2.0% tantalum, 1.2-3.0% titanium, 0.005-1.50% aluminum, 0.0005-0.100% carbon, <2.0% iron, <5.0% cobalt, and balance nickel wherein the nickel is 56.0-65.0%. A weld deposit formed from the welding filler metal has a minimum yield strength in the as-welded condition of at least 72 ksi (496 MPa). Also, a weld deposit and a method of forming a weld deposit comprising, in weight percent: 17.0-23.0% chromium, 5.0-12.0% molybdenum, 3.0-11.0% tungsten, 3.0-5.0% niobium, 0-2.0% tantalum, 1.2-3.0% titanium, 0.005-1.50% aluminum, 0.0005-0.100% carbon, <8.0% iron, <5.0% cobalt, and balance nickel wherein the nickel is 56.0-65.0%. The weld deposit has a minimum yield strength in the as-welded condition of at least 72 ksi (496 MPa). | 10-29-2015 |
20150313025 | Cu BALL - To provide Cu ball that has less α dose and high sphericity even when containing at least a certain amount of impurity elements other than Cu. | 10-29-2015 |
20150314390 | DIFFERENT-MATERIAL JOINT - A different-material joint for welding is free from leakage even in extremely low-temperature environments and has high bonding properties in which an aluminum alloy has been disposed at one outermost end therefore and a stainless steel or steel has been disposed at the other outermost end thereof. The different-material joint according to the present invention comprises an aluminum alloy as one outermost end therefore, a stainless steel or steel as the other outermost end thereof, and two or more metals selected from the group consisting of pure aluminum, nickel, nickel alloys, titanium, titanium alloys, copper, copper alloys, and silver as interlayer materials disposed between the aluminum alloy and the stainless steel or steel. The different-material joint thus includes four or more clad material layers, and is characterized in that all of the bonding interfaces between the layers are wavy interfaces having a wave height of 1 mm or less. | 11-05-2015 |
20150314397 | SUPER HIGH-STRENGTH FLUX CORED ARC WELDED JOINT HAVING EXCELLENT IMPACT TOUGHNESS, AND WELDING WIRE FOR MANUFACTURING SAME - An ultra high-strength flux-cored arc welded joint having excellent impact toughness comprises: 0.01 wt % to 0.06 wt % of carbon (C), 0.1 wt % to 0.5 wt % of silicon (Si), 1.5 wt % to 3.0 wt % of manganese (Mn), 2.5 wt % to 3.5 wt % of nickel (Ni), 0.5 wt % to 1.0 wt % of molybdenum (Mo), 0.4 wt % to 1.0 wt % of copper (Cu), 0.4 wt % to 1.0 wt % of chromium (Cr), 0.01 wt % to 0.1 wt % of titanium (Ti), 0.003 wt % to 0.007 wt % of boron (B), 0.001 wt % to 0.006 wt % of nitrogen (N), 0.02 wt % (excluding 0) or less of phosphorus (P), 0.01 wt % (excluding 0) or less of sulfur (S), 0.03 wt % to 0.07 wt % of oxygen (O), and remaining iron (Fe) as well as unavoidable impurities. | 11-05-2015 |
20150328722 | LEAD-FREE SOLDER ALLOY - Provided is a lead-free solder alloy that has excellent tensile strength and ductility, does not deform after heat cycles, and does not crack. The In and Bi content are optimized and the Sb and Ni content are adjusted. As a result, this solder alloy has an alloy composition including, by mass, 1.0 to 7.0% of In, 1.5 to 5.5% of Bi, 1.0 to 4.0% of Ag, 0.01 to 0.2% of Ni, and 0.01 to 0.15% of Sb, with the remainder made up by Sn. | 11-19-2015 |
20150336216 | Cu BALL - To provide Cu ball that has an excellent alignment performance. | 11-26-2015 |
20150343545 | COMBUSTOR ASSEMBLY FOR A GAS TURBINE ENGINE HAVING A BRAZE LAYER HAVING A CENTERLINE EUTECTIC FREE REGION - A fuel injector for a combustor assembly for a gas turbine engine is disclosed. The fuel injector includes a first component, a second component, and a braze layer. The first component has a sidewall. The second component also has a sidewall. The braze layer is formed between the sidewall of the first component and the sidewall of the second component. The braze layer is being formed from a Nickel (Ni) alloy brazing material containing non-metallic constituents. The braze layer also has a eutectic-free region with substantially all of the non-metallic constituents diffused away from a centerline area between the first component and the second component. | 12-03-2015 |
20150343553 | MACHINE ARRANGEMENT - A machine arrangement, comprising at least one carrier, wherein a glass fiber is connected with the machine arrangement. To allow a proper measurement of stresses even at curved surfaces of the machine arrangement, as it is typical in the case of a carrier being attached to bearing rings, the connection between the glass fiber and the machine arrangement is established by a metallic material which metal material is connected by material bonding with the machine arrangement as well as with the glass fiber. | 12-03-2015 |
20150354050 | DEPOSITION WELDING WITH EXTERNAL THICK FRAME CONTOURS - The susceptibility of cracking in the region of the edges ( | 12-10-2015 |
20150360327 | FLUX-CORED WIRE, WELDING METHOD USING FLUX-CORED WIRE, METHOD FOR MANUFACTURING WELD JOINT USING FLUX-CORED WIRE, AND WELD JOINT - In a flux-cored wire according to the present invention, CaF | 12-17-2015 |
20160002760 | FERRITIC STAINLESS STEEL SHEET HAVING EXCELLENT BRAZABILITY, HEAT EXCHANGER, FERRITIC STAINLESS STEEL SHEET FOR HEAT EXCHANGERS, FERRITIC STAINLESS STEEL, FERRITIC STAINLESS STEEL FOR MEMBERS OF FUEL SUPPLY SYSTEMS, AND MEMBER OF FUEL SUPPLY SYSTEM - One aspect of this ferritic stainless steel sheet contains, by mass %, C: 0.03% or less, N: 0.05% or less, Si: 1% or less, Mn: 1.2% or less, Cr: 14% or more and 28% or less, Nb: 8(C+N) or more and 0.8% or less, and Al: 0.1% or less, with a balance being Fe and inevitable impurities, in which a film satisfying Expression 1 is formed in a surface thereof. | 01-07-2016 |
20160016258 | WELD FOR DIFFERENTIAL ASSEMBLY - A weld is employed to join two components of a differential assembly. The weld has a centerline tilted towards one of the two components to generate a stress release packet at a weld root of the weld. In some arrangements, the two components are made of dissimilar materials such as iron and carburized steel, and a high nickel alloy wire is employed as the weld filler metal. The carburized layer on the steel is not removed before the welding process, such that the weld is formed as a mixture of iron, carburized layer from the steel component, and the weld filler metal. | 01-21-2016 |
20160023309 | LEAD-FREE AND ANTIMONY-FREE TIN SOLDER RELIABLE AT HIGH TEMPERATURES - A lead-free, antimony-free tin solder which is reliable at high temperatures and comprises from 3.5 to 4.5 wt. % of silver, 2.5 to 4 wt. % of bismuth, 0.3 to 0.8 wt. % of copper, 0.03 to 1 wt. % nickel, 0.005 to 1 wt. % germanium, and a balance of tin, together with any unavoidable impurities. | 01-28-2016 |
20160031045 | BRAZED STRUCTURE - This brazed structure includes a brazing sheet that has been brazed and that comprises: a core material comprising an aluminum alloy which contains 0.3-1.0 mass %, excluding 0.3 mass %, Si, 0.6-2.0 mass %, excluding 0.6 mass %, Mn, 0.3-1.0 mass %, excluding 0.3 mass %, Cu, and 0.15-0.5 mass %, excluding 0.15 mass %, Mg, with the remainder comprising Al and unavoidable impurities, and has an average crystal grain diameter of 50 μm or larger and in which an Mg—Si intermetallic compound and an Al—Mg—Si—Cu intermetallic compound account for 40% or less of the grain boundaries; and, clad to the core material, a brazing material comprising an Al—Si alloy. | 02-04-2016 |
20160032424 | SOLDER ALLOY AND JOINT THEREOF - A silver electrode joint having a high joint strength obtained by actively minimizing the particle size of a silver-zinc intermetallic compound at the solidification point. A joint obtained by joining an article to be joined, the joint including silver at least as the surface layer thereof, using a solder alloy which comprises 2-9 wt % of zinc, 0.0001-0.1 wt % of manganese and the balance consisting of tin, the solder joint having a joint interface wherein the particle size of a silver-zinc intermetallic compound, which is formed by silver being the surface layer of the article to be joined and zinc in the solder alloy, is 5 μm or less. | 02-04-2016 |
20160076117 | WELDING METHOD AND WELD STRUCTURE - Object of the present invention is to provide a welding method prevented the fracture at the spot welding zone by recovering the strength of a spot welding zone, namely, the ductility and the toughness in the spot welding zone, and a weld structure manufactured by the method. In the welding method, a spot welding zone provided with a weld nugget | 03-17-2016 |
20160144459 | FLUX-CORED BRAZING PREFORM - Embodiments of the present invention are directed to flux-cored brazing consumables and preforms which have at least one protrusion which extends from an outer surface of the consumable such that the protrusion engages with a surface of a component to be brazed. The protrusion aids in securing the brazing consumable in position during manufacture, assembly and transport of an assembly to be brazed, prior to a brazing operation. | 05-26-2016 |
20160175982 | IN-SITU INTERLOCKING OF METALS USING ADDITIVE FRICTION STIR PROCESSING | 06-23-2016 |
20160184936 | Flux, Solder Paste and Solder Joint - A purpose of the present invention is to provide a flux having an improved cleaning property by suppressing a carbonization of a flux residue. A flux contains an organic acid, a thixotropic agent, rosin and a solvent wherein a fatty acid monoalkylol amide having 14-20 carbon atoms is contained as the thixotropic agent. The fatty acid monoethanol amide is added in an amount of 3-10% by weight as the thixotropic agent. In addition, a dicarboxylic acid having 10 or less carbon atoms is added in an amount of 4-10% by weight as the organic acid. Moreover, the solvent is added in an amount of 30-60% by weight. | 06-30-2016 |
20160375516 | BRAZE JOINTS - A method of manufacturing includes depositing a first braze material to a first joint location between a first component having a first coefficient of thermal expansion and an intermediate component. The first component is fitted to the intermediate component at room temperature at the first joint location. A second braze material is deposited to a second joint location between the intermediate component and a second component having a second coefficient of thermal expansion. The second component is fitted to the intermediate component at room temperature at the second joint location. The intermediate component has a coefficient of thermal expansion between the first coefficient of thermal expansion and the second coefficient of thermal expansion. | 12-29-2016 |
20170232560 | Steel Part | 08-17-2017 |
20180021890 | SYSTEM AND METHOD TO PRODUCE A STRUCTURE FOR A WELD JOINT USING ADDITIVE MANUFACTURING | 01-25-2018 |