Entries |
Document | Title | Date |
20080296265 | Shielded metal arc welding machine - A shielded metal arc welding machine having a characteristic with a constant current output characteristic and a drooping output characteristic properly combined is provided. A shielded metal arc welding machine having a constant current output characteristic, characterized by having a desired drooping output characteristic, which has an optional drooping degree with a point at which a characteristic line of said constant current output characteristic intersects a welding load characteristic line L as a base point, and replaces said constant current output characteristic. | 12-04-2008 |
20100051589 | METHOD AND DEVICE FOR CONTACTING, POSITIONING AND IMPINGING A SOLDER BALL FORMATION WITH LASER ENERGY - The invention relates to a method and a device for contacting a solder ball formation ( | 03-04-2010 |
20100170877 | LASER SHOCK HARDENING METHOD AND APPARATUS - There is provided an improved laser shock hardening method and apparatus which can eliminate spattering of a liquid and waving of the liquid surface upon laser irradiation, and can stably irradiate a workpiece with a laser beam. Thus, the present invention provides in a laser shock hardening method for carrying out surface processing of a workpiece in contact with a liquid by irradiating through the liquid the surface of the workpiece with a pulsed laser beam intermittently emitted from a laser irradiation device, the improvement comprising: providing a solid transparent to the wavelength of the laser, serving as an entrance window to the surface of the liquid; allowing the liquid to be present in the light path of the laser beam between the solid and the surface of the workpiece; and allowing the laser beam to enter through the solid and irradiating through the liquid the surface of the workpiece with the laser beam, thereby shock-hardening the surface of the workpiece. | 07-08-2010 |
20110062119 | UNDERWATER MARKING WITH A PLASMA ARC TORCH - A method of marking underwater with a plasma arc torch is provided. The method includes surrounding a plasma arc produced by the plasma arc torch with a flow of gas. The flow of gas may be directed around and/or along the body of the plasma arc torch with an air curtain attachment. Directing the flow of gas in this manner generates a protective air curtain which substantially surrounds the plasma arc. A current between 8 and 35 amperes may be used to mark the workpiece. Thereafter, the workpiece may be cut using the same plasma arc torch with a current between 30 and 750 amperes. The same nozzle and rate of flow of gas may be used for both the marking and cutting operations. Additionally, the workpiece may be kept underwater throughout the marking and cutting operations. | 03-17-2011 |
20130043219 | METHOD AND SYSTEM TO START AND USE COMBINATION FILLER WIRE FEED AND HIGH INTENSITY ENERGY SOURCE FOR WELDING - A method and system to weld or join workpieces employing a high intensity energy source to create a weld puddle and at least one resistive filler wire which is heated to at or near its melting temperature and deposited into the weld puddle. | 02-21-2013 |
20130299460 | HARDFACING SUBMERGED ARC WELDING DEVICE - A hardfacing submerged arc welding device includes an alloy-powder supplying unit for supplying alloy powders onto a workpiece, a flux-powder supplying unit for supplying flux powders onto the workpiece, and a welding-wire supplying unit for supplying a welding wire onto the workpiece. | 11-14-2013 |
20140091065 | PRODUCTION METHOD FOR RIFLE RECEIVERS - Production method for a monobloc rifle receiver of aluminium or aluminium alloy, characterised in that this method consists of the realisation of individual parts of the receiver, which, in an assembled state can form a receiver; followed by any mechanical adjustments; followed by the assembly of these parts ( | 04-03-2014 |
20140116992 | Welding Enclosure - A personal welding enclosure has a rigid support frame and a tent-like enclosure defining an inner work chamber. The enclosure, which is supported by the rigid frame, is beneficially formed from impermeable, flame-proof and/or flame-resistant fabric having desired strength, durability and thermal insulation characteristics. A pneumatic automatic shut off control system monitors variables in and around the enclosure, alerts personnel to the existence of potentially unsafe conditions within the enclosure and automatically terminates welding and/or other hot-work when an unsafe condition is detected. | 05-01-2014 |
20140131319 | Method For Welding A Weld-On Element Onto A Counterpart - A method for welding a weld-on element onto a component is proposed, comprising at least the step that, before the welding process, at least one of the parts being connected is wetted with a wetting agent over the full area and uniformly in layer thickness in a welding region. | 05-15-2014 |
20140144887 | TOOLSET AND METHOD FOR PRODUCING A METAL LINER - A method and a toolset for manufacturing a metal liner for a composite vessel includes a mandrel configured in several mandrel elements forming support elements of primary parts constituting the metal liner. | 05-29-2014 |
20140231393 | PROGRAM CONTROLLED DICING OF A SUBSTRATE USING A PULSED LASER BEAM - A substrate is diced using a program-controlled pulsed laser beam apparatus having an associated memory for storing a laser cutting strategy file. The file contains selected combinations of pulse rate Δt, pulse energy density E and pulse spatial overlap to machine a single layer or different types of material in different layers of the substrate while restricting damage to the layers and maximising machining rate to produce die having predetermined die strength and yield. The file also contains data relating to the number of scans necessary using a selected combination to cut through a corresponding layer. The substrate is diced using the selected combinations. Gas handling equipment for inert or active gas may be provided for preventing or inducing chemical reactions at the substrate prior to, during or after dicing. | 08-21-2014 |
20140374386 | METHOD AND DEVICE FOR FORMING NANO PARTICLE - There is provided a method of forming a nanoparticle including: preparing a wire formed of a material for forming a nano-sized particle; connecting the wire to first and second electrodes; pre-heating the wire using a pre-heating device; and applying energy to the wire using a power supply to form the nano-sized particle, wherein after the pre-heating is performed, a skin depth of the wire is larger than a radius of the wire. | 12-25-2014 |
20150366079 | HEAT-BONDING APPARATUS AND METHOD OF MANUFACTURING HEAT-BONDED PRODUCTS - A heat-bonding apparatus and method of manufacturing a heat-bonded product without overheating during cooling thereof after the completion of the heat-bonding, where the object can be cooled in a shorter time than the conventional when the heat-bonding is performed in a vacuum. A heat-bonding apparatus having a vacuum chamber for housing an object to be heat-bonded and a buffer part, a heater for applying heat to the buffer part placed into contact with the object, an object temperature sensor for detecting a temperature of the object heated through the buffer part, a buffer temperature sensor for detecting a temperature of the buffer part, a vacuum breaker for breaking the vacuum, and a controller for operating the vacuum breaker to break the vacuum when a temperature difference between a temperature detected by the object temperature sensor and a temperature detected by the buffer temperature sensor falls within a range of specified temperature difference. | 12-17-2015 |
20160144461 | Ni-Cr-Mo-Ta-Nb Welding Filler Metals, Welding Filler Metal Consumables, Weld Deposits, Methods of Making Weld Deposits, and Weldments Thereof - A welding filler metal includes, by weight percent: chromium of at least 28.0% and at most 31.5%; niobium of at least 0.60%; tantalum of at least 0.010%; molybdenum of at least 1.0% and at most 7.0%; carbon of at least 0.040% and at most 0.09%; manganese of at most 1.0%; balance nickel and inevitable impurities, wherein the sum of niobium and tantalum is at least 2.2% and at most 4.0%. A welding filler metal consumable is made from the welding filler metal. A welding deposit is formed from the welding filler metal consumable. A weldment is formed using the welding filler metal consumable. | 05-26-2016 |
20160175960 | METHOD FOR MAKING CERAMIC MATRIX COMPOSITE ARTICLES WITH PROGRESSIVE MELT INFILTRATION | 06-23-2016 |