| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 228198000 | Chemical reaction produces filler material in situ | 12 |
| 20090032572 | System, method, and apparatus for reactive foil brazing of rock bit components. Hardfacing and compacts - A reactive foil is used to join rock bit components such as leg sections, hardfacing, and cutter elements to the rolling cone earth-boring bit body. A small pulse of localized energy ignites the foil in a fraction of second to deliver the necessary amount of heat energy to reflow solder or braze and form a strong, true metallic joint. The reaction in the foil may be activated using optical, electrical, or thermal sources. | 02-05-2009 |
| 20090134206 | Process and Paste for Contacting Metal Surfaces - For production of an electrically conductive or thermally conductive connection for contacting two elements, an elemental metal, in particular silver, is formed from a metal compound, in particular a silver compound, between the contact surfaces. In this production, the processing temperature for the use of a silver solder can be decreased below 240° C. and the processing pressure can be reduced to normal pressure. A contacting paste for this purpose contains a metal compound, in particular a silver compound, which decomposes below 400° C. while forming elemental silver. As a result, a metal is generated in situ from a chemical compound for producing a contact, which is usable above the temperature necessary for its production. | 05-28-2009 |
| 20090188969 | WELD METAL MATERIAL APPARATUS AND METHOD - A solid weld-metal-producing material is formed by agglomerating weld metal material powder. An igniter may be integrally formed in or on the agglomerated weld metal material. In addition to typical components of a weld metal material mixture, such as a reductant metal and a transition metal oxide, the agglomerated weld metal mixture may include a binder material, such as sodium silicate. In addition to functioning as a binder to help hold the agglomerated weld metal material together, the binder material may aid in the exothermic reaction that occurs when the weld metal material is ignited. The agglomerated weld metal material may be made by mixing together a reductant metal powder, a transition metal oxide powder, and possibly a binder solution. A slurry of the components may be pressed together, for example, using a die and a ram, and then may be dried. | 07-30-2009 |
| 20090242615 | PROCESS FOR JOINING MATERIALS USING A METALLIC HEAT SOURCE WITHIN A CONTROLLED ATMOSPHERE - This invention is directed to a process for joining materials comprising providing an assembly comprising at least one material layer; at least one metal heat source; and at least one solder layer, each solder layer disposed between each metallic heat source and each material layer; placing the assembly in a controlled atmosphere; and initiating a chemical reaction in the metal heat source so as to enable the solder to join the material layer. | 10-01-2009 |
| 20100127047 | METHOD OF INHIBITING A FORMATION OF PALLADIUM-NICKEL-TIN INTERMETALLIC IN SOLDER JOINTS - A method of inhibiting a formation of palladium-nickel-tin (Pd—Ni—Sn) intermetallic in solder joints is described as follows. Firstly, a solder alloy is provided. Then, at least one of a trace of copper and a trace of zinc is doped into the solder alloy. Afterward, the solder alloy is disposed on the Pd-bearing surface finish, such as a Pd/Ni bi-layer or a Au/Pd/Ni tri-layer. Next, the solder alloy is soldered with the surface finish as solder joints. During the soldering, the Cu and Zn will incorporate into the soldering reaction, forming copper-palladium-nickel-tin intermetallic and zinc-palladium-nickel-tin intermetallic, replacing the Pd—Ni—Sn respectively. Consequently, the addition of Cu and/or Zn into solders will inhibit the undesirable Pd—Ni—Sn intermetallic to form in the solder joints. | 05-27-2010 |
| 20110031301 | Joining of Electrical Generator Components - A method for joining components to be used in an electrical generator. First and second components are provided. The first and second components are preheated and a reactive bonding material is disposed between and in contact with the first and second components. The reactive bonding material includes a first material, which is a brazing material, and a second material that is capable of melting the first material upon an initiation of an exothermic reaction in the second material. An exothermic reaction is initiated in the second material to effect a release of thermal energy from the second material to melt the first material. Upon a cooling and solidification of the first material, the first material creates a bond between a first surface of the first component and a second surface of the second component to join the first and second components together. | 02-10-2011 |
| 20110198391 | EXOTHERMIC WELDING ASSEMBLY - An assembly is disclosed for exothermic welding comprising a mold which is formed of a material which withstands exothermic welding temperatures and includes a weld cavity therein for positioning at least two members which are to be exothermically welded together, and an ignition cavity communicating with the weld cavity. The mold is capable of accommodating any one of several exothermic welding procedures which may involve either a flint igniter or the use of an electrical igniter which is readily accommodated by the mold in the performance of several of the procedures. The electrical igniter is formed of a pair of flat, longitudinally extending conductor strips with a sheet of insulation laminated therebetween, a filament adjacent one end of the strips, and one or more positioning tabs adjacent one end of the strips. A cartridge is also provided which contains the weld metal and the electrical igniter and which may be positioned in the ignition cavity of the mold. The cartridge is formed of a material which is consumed during the welding procedure and may contain a plate of a different material adjacent its bottom which melts at a higher temperature than the materials of the cartridge. | 08-18-2011 |
| 20120055979 | WELD MATERIAL IGNITION - A weld ignition system includes a wireless receiver that wirelessly receives a weld ignition activation signal. The weld ignition system further includes igniter that ignites a weld ignition material in response to the wireless receiver wirelessly receiving the weld ignition activation signal. The ignited weld ignition material initiates exothermic based welding of a weld material. | 03-08-2012 |
| 20120061454 | EXOTHERMIC MIXTURE - An exothermic reaction mixture for joining metallic components includes at least one transition metal oxide and, as fuel, a mixture of aluminium and calcium suicide, wherein the molar ratio of aluminium to calcium suicide is from 16:1 to 0.25:1. Methods of preparing the exothermic reaction mixtures and for using them in welding applications are also described. | 03-15-2012 |
| 20120273557 | METHOD OF JOINING COPPER CONDUCTORS - Copper conductor members or other copper-base workpieces are welded using a suitable copper alloy material that is reactive with the joining surfaces of the copper members. The reactive metal material may be applied as a thin metal strip between assembled facing joining surfaces. The members are pressed together against the reactive material and heated. The combined pressure and heat enable the reactive material to react with facing workpiece material, to liquefy and remove oxides or the like that might inhibit the formation of a welded interface. The liquid, containing original reactive metal and byproducts, is squeezed from the interface of the workpieces to enable the formation of a solid-state weld between them without melting of un-reacted workpiece copper material. | 11-01-2012 |
| 20130105560 | System for connecting tubes and cables and method thereof | 05-02-2013 |
| 20150021377 | METHOD AND MACHINE FOR FORGE WELDING OF TUBULAR ARTICLES AND EXOTHERMIC FLUX MIXTURE AND METHOD OF MANUFACTURING AN EXOTHERMIC FLUX MIXTURE - A method of forge welding includes placing at least two components for welding together, adjacent each other and with an exothermic flux mixture placed between the components. The exothermic flux mixture is heated to initiate an exothermic reaction and the faying surfaces of the two components are pressed together. The components being welded may be tubular, in particular pipes. Apparatus for the method of forge welding and exothermic flux mixtures for the method of forge welding are also provided. | 01-22-2015 |
