Class / Patent application number | Description | Number of patent applications / Date published |
228262100 | Critical work component, temperature, or pressure | 12 |
20090065556 | METHOD TO REDUCE SHRINKAGE DRIVEN DISTORTION WHEN WELDING ON PRESSURE PIPING AND VESSEL MATERIALS - A welding method is disclosed in which a structural weld overlay is re-oriented from a circumferential orientation to an axial orientation during deposition. The axial welding orientation provides a more favorable condition to prevent weld cracking and shrinkage distortion. The axial welding orientation also allows two or more weld machines to be used simultaneously so that two or more welding arcs can simultaneously deposit filler material or the overlay, thereby reducing the time required to complete the structural weld overlay. | 03-12-2009 |
20130026213 | WATERBORNE AUTOWELDABLE SHOP PRIMER - A one-part, storage-stable, air-dryable, latex-coatable waterborne film-forming coating composition has dispersed therein sufficient conductive material to provide an autoweldable hardened shop primer layer when applied to metal components. The thus-primed components may be welded together using automated arc welding equipment without having to remove the coating composition at the weld site. The conductive material desirably causes little or no airborne emission of unsafe quantities of heavy metals or other harmful substances when the primer is volatilized or combusted during welding. | 01-31-2013 |
228262200 | Nonmetal work component without metallic filler | 1 |
20150102091 | Methods for Forming Apparatus for Stud Bump Formation - An apparatus used for forming stud bumps may be formed by providing a first clamp plate comprising a clamping surface, forming a notcher on the clamping surface, and forming a contact stopper on the clamping surface. The apparatus may include a clamp that includes at least two opposing plates, and at least one of the opposing plates includes a protruding feature that intersects the wire when the wire is clamped forming a first notch in the wire. The method for forming stud bumps includes bonding wire to a bonding surface, releasing the wire from the clamp, passing the wire a notch pitch distance through the clamp, clamping the wire with the clamp forming a second notch in the wire, and breaking the wire leaving a bonded portion of the wire on the bonding surface. | 04-16-2015 |
228262400 | Ferrous metal member | 1 |
228262410 | Steel member | 1 |
228262420 | Brazing or soldering | 1 |
20130075456 | COMPACTOR WHEEL ASSEMBLY - A method is disclosed of forming a wheel tip assembly for a compactor wheel assembly used on a compactor machine. The method may include forming a tip portion of white cast iron, and forming a base portion configured to be connected to a wheel rim. The tip portion may be brazed to the base portion to thereby form the wheel tip assembly. Also disclosed is a method of forming a compactor wheel assembly for use on a compactor machine, which includes the wheel tip assembly. | 03-28-2013 |
228262500 | Aluminum or magnesium member | 4 |
20130256390 | JUNCTION MATERIAL, MANUFACTURING METHOD THEREOF, AND MANUFACTURING METHOD OF JUNCTION STRUCTURE - The disclosed junction material, manufacturing method thereof, and manufacturing method of junction structure utilize lead-free materials and ensure a high reliability of the junction between a semiconductor element and a frame or substrate, or, between a metal plate and another metal plate. For junctions between a semiconductor element and a frame or substrate, by using as the JUNCTION MATERIAL a laminate material comprising a Zn-based metallic layer ( | 10-03-2013 |
20160002029 | METHOD OF FABRICATION OF AI/GE BONDING IN A WAFER PACKAGING ENVIRONMENT AND A PRODUCT PRODUCED THEREFROM - A method of bonding of germanium to aluminum between two substrates to create a robust electrical and mechanical contact is disclosed. An aluminum-germanium bond has the following unique combination of attributes: (1) it can form a hermetic seal; (2) it can be used to create an electrically conductive path between two substrates; (3) it can be patterned so that this conduction path is localized; (4) the bond can be made with the aluminum that is available as standard foundry CMOS process. This has the significant advantage of allowing for wafer-level bonding or packaging without the addition of any additional process layers to the CMOS wafer. | 01-07-2016 |
228262510 | Brazing or soldering | 2 |
20130062399 | APPARATUS FOR AND METHOD OF BRAZING ALUMINIUM PRODUCTS WITH CLOSED LOOP CONVEYOR WITHIN THE FURNACE - An apparatus ( | 03-14-2013 |
20180021893 | BRAZING FILLER MATERIAL AND BRAZING SHEET | 01-25-2018 |
228262600 | Copper or noble metal member | 1 |
228262610 | Brazing or soldering | 1 |
20170232562 | BONDING STRUCTURE, BONDING MATERIAL AND BONDING METHOD | 08-17-2017 |
228262900 | Brazing or soldering | 3 |
20090050680 | Method for connecting tubular solid oxide fuel cells and interconnects for same - An interconnect for electrically connecting a first and second cell of a tubular fuel cell bundle having a body with an anode contact and a cathode contact extending therefrom. The anode contact is formed to follow a contour of an anode portion of the first cell. The cathode contact is formed to follow a contour of a cathode portion of the second cell. A contact aid may be applied to the anode contact and/or cathode contact for securing the contact to the respective portion of the fuel cell bundle. The interconnect preferably completes a series connection between the first and second cells. | 02-26-2009 |
20100038412 | LOW-MELTING BORON-FREE BRAZE ALLOY COMPOSITIONS - Nickel-based low-melting boron-free braze alloy compositions include varying amounts of the alloying elements cobalt, chromium, hafnium, zirconium together with optionally titanium and aluminum. The braze alloys can be used as a stand alone braze alloy or in combination with other filler alloys to create braze joints with desirable joint geometries and properties. The braze alloy compositions can be used to join and repair different superalloy articles such as gas turbine components for high temperature applications. | 02-18-2010 |
20130193194 | INNOVATIVE BRAZE AND BRAZING PROCESS FOR HERMETIC SEALING BETWEEN CERAMIC AND METAL COMPONENTS IN A HIGH-TEMPERATURE OXIDIZING OR REDUCING ATMOSPHERE - A superior braze material, along with a method of producing the braze material and a method of sealing, joining or bonding materials through brazing is disclosed. The braze material is based on a metal oxide-noble metal mixture, typically Ag—CuO, with the addition of a small amount of metal oxide and/or metal such as TiO | 08-01-2013 |