Patent application number | Description | Published |
20090020383 | DAMPED PART - A part including a body including a metal, and a frictional damping means, the frictional damping means comprising frictional surfaces in local contact but not bonded together, or the frictional damping means including a layer including at least one of particles, flakes, or fibers, the layer having a thickness ranging from about 1 μm to about 500 μm. | 01-22-2009 |
20090022938 | METHOD OF MANUFACTURING A DAMPED PART - One embodiment includes a damped product including a first portion, a second portion, a first cavity formed in one of the first portion or the second portion, and a frictional damping insert at least partially received in the first cavity so that the first portion and the second portion completely enclose the frictional damping insert and so that vibration of the product is damped by the insert. | 01-22-2009 |
20090102588 | BRAZE METAL JOINT DESIGN - A copper tube with copper end pieces for a water-cooled secondary winding of a welding transformer is an example of a brazed assembly having a potentially corrodible side, the water-cooled side, and a low-exposure side, the air side or dry side, of the joined pieces. By shaping contacting surfaces of the parts at the brazed joint it is useful to form a barrier, for example, between a special braze material required for the corrosive side and a conventional, easy to apply, braze material for use on the air side of the joint. | 04-23-2009 |
20090107787 | INSERTS WITH HOLES FOR DAMPED PRODUCTS AND METHODS OF MAKING AND USING THE SAME - One embodiment of the invention includes a frictional damping insert including a body constructed and arranged to be incorporated into a product and to form at least a portion of a frictional damping means, the body including lines of weakness constructed and arranged to segment the body into separate sections upon exposure to a molten material. | 04-30-2009 |
20090127232 | WELD ELECTRODE FOR ATTRACTIVE WELD APPEARANCE - Weld faces of electrodes for resistance spot welding are formed with a suitable area of protrusions and/or intrusions. The size, shape, and elevation or depths of the protrusions or intrusions are determined for the formation of suitable spot welds in and between metal workpieces such as aluminum or steel panels for vehicle bodies. The protrusions or intrusions are also conceived and used to form an image on at least a visible surface of the welded article to produce an attractive appearance on the surface of the welded sheet. | 05-21-2009 |
20090176122 | METHOD OF FORMING CASTING WITH FRICTIONAL DAMPING INSERT - A method of making a frictionally damped part including providing a frictional damping insert including downwardly extending support legs stamped out of a body portion of the insert. | 07-09-2009 |
20090255908 | WELD ELECTRODE FOR ATTRACTIVE WELD APPEARANCE - Weld faces of electrodes for resistance spot welding are formed with a suitable area of protrusions and/or intrusions. The size, shape, and elevation or depths of the protrusions or intrusions are determined for the formation of suitable spot welds in and between metal workpieces such as aluminum or steel panels for vehicle bodies. The protrusions or intrusions are also conceived and used to form an image on at least a visible surface of the welded article to produce an attractive appearance on the surface of the welded sheet. | 10-15-2009 |
20090278396 | CORROSION ISOLATION OF MAGNESIUM COMPONENTS - A vehicle component, such as a wheel, is formed of a magnesium alloy for weight reduction in an automotive vehicle. It is expected that the wheel will be attached to other vehicle wheel-related componenets that are formed of metal compositions (for example, steel or cast iron components) that may lead to the corrosion of the magnesium wheel. Such attachment surfaces of the magnesium wheel are oxidized to form an integral and durable oxide layer on the magnesium wheel. When the magnesium wheel is attached to vehicle wheel supporting components of other alloys, the oxide layer-coated surfaces of the magnesium wheel are electrochemically isolated from the non-magnesium materials to prevent oxidation of the wheel or attached components. | 11-12-2009 |
20090302009 | ELECTRODE FOR SPOT WELDING - Spot welding electrodes with generally dome shaped welding faces are provided with surface features for welding both aluminum alloy sheet assemblies and steel sheet assemblies. A raised circular plateau is formed on the central axis of the dome and, in one embodiment, a suitable number of round bumps are formed in concentric spacing from adjacent the circumference of the plateau toward the circular edge of the welding face. For welding steel workpieces the plateau mainly serves as the engaging feature of the electrode. Both the plateau and concentric bumps are used in penetrating light metal surfaces for suitable current passage. In another embodiment, the domed surface is shaped with concentric terraces for engagement with the workpieces. | 12-10-2009 |
20100035080 | Corrosion resistant laminated steel - Outer steel sheet-viscoelastic core laminates are often subject to corrosion in moisture-containing environments. Zinc-based alloys of aluminum, or of aluminum and magnesium, may be beneficially applied to the inner faces of the steel sheets or to both the inner and outer sheet faces. Substantially pure zinc coatings may be applied over the zinc-based alloys or over an otherwise bare outer steel sheet surface. Combinations of such zinc-based alloy coatings and substantially pure zinc coatings improve the corrosion resistance of the steel sheet-polymer core laminates while maximizing weldability and paintability. | 02-11-2010 |
20100258537 | WELDING LIGHT METAL WORKPIECES BY REACTION METALLURGY - Aluminum alloy workpieces and/or magnesium alloy workpieces are joined in a solid state weld by use of a reactive material placed, in a suitable form, at the joining surfaces. Joining surfaces of the workpieces are pressed against the interposed reactive material and heated. The reactive material alloys or reacts with the workpiece surfaces consuming some of the surface material in forming a reaction product comprising a low melting liquid that removes oxide films and other surface impediments to a welded bond across the interface. Further pressure is applied to expel the reaction product and to join the workpiece surfaces in a solid state weld bond. | 10-14-2010 |
20100276236 | DAMPED PRODUCT AND METHOD OF MAKING THE SAME - One exemplary embodiment includes a damped product. The damped product is composed of a sintered powder metallurgy material and has a first portion and a second portion. The first portion has a density that is greater in value that a density of the second portion. The different densities damp vibrations in the product when the product is vibrated. | 11-04-2010 |
20100282550 | MODE ALTERING INSERT FOR VIBRATION REDUCTION IN COMPONENTS - A component with a first number of natural modes of vibration. An insert may be coupled to the component. The insert may have a second number of natural modes of vibration which is a different number than the first number of natural modes of vibration of the component. The insert helps damp vibrations in the component when the component is vibrated. | 11-11-2010 |
20100294063 | FRICTION DAMPED GEARS - One exemplary embodiment includes a transfer gear that carries a friction damping component that damps vibrations in the gear. The friction damping component may be carried on or in a hub, a web, or both the hub and the web, and may include at least one non-bonded surface that contacts an adjacent surface. | 11-25-2010 |
20110094999 | APPLICATION OF SURFACE RELIEF TO SPOT WELDING ELECTRODES - The workpiece-contacting surface of the spot welding electrode may be suitably modified to incorporate a desired shape or form, generally comprising a depressed region outlining a recognizable shape, to form aesthetically-pleasing or functional features in the surface of a workpiece during resistance spot welding. Methods for creating the desired form in the spot welding electrode including abrasion, upsetting, and electrical discharge machining are disclosed. Preferably the electrode face is shaped and subsequently redressed during welding operations at the welding station. | 04-28-2011 |
20110143161 | COULOMB DAMPING FEATURES USING ULTRASONIC WELDING - Selected surface regions of coulomb vibration damping strips are bonded face-to-face by ultrasonic welding to a surface region of an article that may experience excessive vibration in use. In one embodiment, prior to welding, the intended facing side of the damping strip is treated to form surface regions that are oxidized, roughened, or coating so that the treated regions do not weld to the article surface. In another embodiment of the invention the ultrasonic welding process is controlled so as to produce regions (sometimes randomly interposed regions) of welded and non-welded regions between the damping strip and adjacent article surface. The unbonded regions of the otherwise welded strip lie in closely-spaced, interfacial, frictional contact with the adjacent article surface to damp vibration in the article. Other processes may be used for welding a damping strip to a surface of an article while leaving un-bonded, friction damping regions between regions of the damping strip and the facing surface of the article. | 06-16-2011 |
20110186204 | HEATING APPARATUS AND METHOD OF USE OF THE SAME IN A VIBRATION WELDING PROCESS - A method for heating a work piece or a welding interface using a vibration welding system includes positioning the work piece adjacent to a welding tool to define the welding interface and then heating the work piece or the welding interface to within a calibrated threshold temperature using a thermal device, e.g., a heat rod, laser device, or blower. A high-frequency vibration may be applied to form a weld. The work piece may include an adjacent interconnecting member and battery tab. The thermal device may be embedded within the welding tool and controlled via a temperature controller. A vibration welding system includes a welding tool, a thermal device, and a controller. The controller controls the thermal device to thereby control the welding temperature at or along the welding interface. The thermal device may be embedded within the welding tool, which may be configured as an anvil body in one embodiment. | 08-04-2011 |
20110188952 | STABILIZER FOR DRESSING ELECTRODES AND METHOD OF USING THE SAME - One embodiment includes an electrode dressing apparatus having a rotatable dressing blade including a first cutting face, an electrode comprising an electrode body and a weld face, and an electrode guide positioned absolutely relative to the rotatable dressing blade to position the weld face of the electrode at a designated location over the first cutting face. | 08-04-2011 |
20110198169 | BI-METAL DISC BRAKE ROTOR AND METHOD OF MANUFACTURING - The invention provides a method for manufacturing a friction damped disc brake rotor, including the steps of: (A) providing a ceramic coating on an insert, wherein the insert has a body with tabs extending therefrom to hold the insert in a desired position within a mold; (B) washing the ceramic coating off of the tabs; (C) positioning the insert into the mold; and (D) casting a rotor cheek of the disc brake rotor in the mold around the insert such that a portion of each tab is bonded with the rotor cheek, and such that the coating is substantially non-bonded with the rotor cheek so that the coating provides a proper interfacial boundary between the body and the cheek for damping, and the at least partial bonding of each tab with the rotor cheek prevents corrosion-causing exterior elements from reaching the interfacial boundary when the friction damped disc brake rotor is in use. | 08-18-2011 |
20110303736 | BATTERY TAB JOINT BY REACTION METALLURGY - Copper metal or metal alloy workpieces and/or aluminum metal or metal alloy workpieces are joined in a solid state weld by use of a reactive material placed, in a suitable form, at the joining surfaces. Joining surfaces of the workpieces are pressed against the interposed reactive material and heated. The reactive material alloys or reacts with the workpiece surfaces consuming some of the surface material in forming a liquid-containing reaction product comprising a low melting liquid that removes oxide films and other surface impediments to a welded bond across the interface. Further pressure is applied to expel the reaction product and to join the workpiece surfaces in a solid state weld bond. | 12-15-2011 |
20120000964 | BATTERY TAB JOINTS AND METHODS OF MAKING - A method of soldering battery cell tabs to a conductor is provided. The battery cell tab and the conductor are made of a material independently selected from aluminum, copper, or nickel-plated copper. The method include preparing an assembly of the battery cell tabs and the conductor with a first joining surface of one battery cell tab face-to-face with a first joining surface of the conductor, at least one joining surface having a layer of solder thereon; pressing the assembly so that the facing joining surfaces engage the solder, and heating the solder to a temperature above a melting temperature of the solder in the absence of a fluxing agent while limiting the displacement of the joining surfaces to a predetermined value; and holding the joining surfaces against each other and solidifying the solder to form a soldered joint between the battery cell tabs and the conductor. | 01-05-2012 |
20120015134 | INSERTS WITH HOLES FOR DAMPED PRODUCTS AND METHODS OF MAKING AND USING THE SAME - One embodiment of the invention includes a frictional damping insert including a body constructed and arranged to be incorporated into a product and to form at least a portion of a frictional damping means, the body including lines of weakness constructed and arranged to segment the body into separate sections upon exposure to a molten material. | 01-19-2012 |
20120107546 | COULOMB DAMPING AND/OR VISCOUS DAMPING INSERT USING ULTRASONIC WELDING - One or more layers of vibration damping material are placed on one or more selected surface regions of a body portion of a vibratile metal article. The layer of damping material is covered with a thin metal sheet. The selected surface may be recessed in the body portion to receive the damping material. The covering sheet may be formed of the same metal composition as body portion, or of a compatible metal composition. The peripheral edges of the covering sheet are ultrasonically welded to the surface of the article body portion to confine the damping material against the selected surface(s) so that the damping material forms a vibration damping interface(s) with the surface(s) of the article. The damping material may function as a coulomb damping material, or a viscous damping material, or both. | 05-03-2012 |
20120204412 | METHOD OF JOINING BY ROLLER HEMMING AND SOLID STATE WELDING AND SYSTEM FOR SAME - A method of joining a first and a second work piece, such as automotive closure panels, includes supporting the work pieces on a fixture, and then joining the work pieces to one another by a first solid state weld with a vibrating roller head of a tool assembly, such as a robotically-controlled ultrasonic seam welder. Next, a flange of the second work piece is hemmed about an outer periphery of the first work piece using the same or a different roller head with the work pieces supported by the fixture. The hemmed flange is then joined to the first work piece by a second solid state weld with the vibrating roller head of the robotically-controlled ultrasonic seam welder. A system for joining a first and a second work piece is also provided. | 08-16-2012 |
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 |
20130056447 | AUTOMATION OF REACTION METALLURGICAL JOINING FOR COPPER CONDUCTORS - Copper conductor members or other copper-based 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 foil strip between assembled facing joining surfaces. The members are pressed together against the reactive material and electrical resistance heated in forming the weld. Practices are adapted for forming many such welds in the pairs of facing ends of conductor bars or wires assembled, for example, in slots in a stator for a vehicle traction motor. Practices are disclosed for shaping and automated placement of suitably sized and shaped foils of reactive metal. Practices are also disclosed for use of a resistance welding tool in aligning and heating the many pairs of conductors to be welded. | 03-07-2013 |
20130127291 | ROTOR AND METHOD OF FORMING SAME - A method of forming a rotor, wherein the rotor includes a plurality of conductor bars each joined to a shorting ring, includes disposing an end of each of the plurality of conductor bars within a respective one of a plurality of cavities defined by the shorting ring. The method also includes, after disposing, deforming the end of each of the conductor bars, and brazing the end of each of the conductor bars to the shorting ring to form the rotor. A rotor includes a shorting ring defining a plurality of cavities therein each having a shape, a plurality of conductor bars each having an end disposed within a respective one of the cavities and joined to the shorting ring, wherein the end is deformable to the shape, and a braze material disposed in contact with the end of each of the conductor bars within a respective one of the cavities. | 05-23-2013 |
20130256143 | ANODIZED INSERTS FOR COULOMB DAMPING OR FRICTIONAL DAMPING - A method comprising providing an insert having a portion capable of being oxidized and electrochemically anodizing the portion capable of being oxidized to provide a layer comprising an oxidized material thereon. | 10-03-2013 |
20130306604 | ELECTRODE FOR SPOT WELDING - Spot welding electrodes with generally dome shaped welding faces are provided with surface features for welding both aluminum alloy sheet assemblies and steel sheet assemblies. A raised circular plateau is formed on the central axis of the dome and, in one embodiment, a suitable number of round bumps are formed in concentric spacing from adjacent the circumference of the plateau toward the circular edge of the welding face. For welding steel workpieces the plateau mainly serves as the engaging feature of the electrode. Both the plateau and concentric bumps are used in penetrating light metal surfaces for suitable current passage. In another embodiment, the domed surface is shaped with concentric terraces for engagement with the workpieces. | 11-21-2013 |
20150083693 | RESISTANCE SPOT WELDING STEEL AND ALUMINUM WORKPIECES WITH HOT WELDING ELECTRODE AT ALUMINUM WORKPIECE - A method of resistance spot welding a steel workpiece to an aluminum or aluminum alloy workpiece is disclosed. One step of the disclosed method involves providing a workpiece stack-up that includes a steel workpiece and an aluminum workpiece. Another step involves preheating the welding electrode that is meant to contact the aluminum or aluminum alloy workpiece. Yet another step of the disclosed method involves pressing the preheated welding electrode and another welding electrode against opposite sides of the workpiece stack-up, with the preheated welding electrode abutting the aluminum or aluminum alloy workpiece, and passing an electrical current between the two welding electrodes at a weld site to initiate and grow a molten weld pool within the aluminum or aluminum alloy workpiece. | 03-26-2015 |
20150083694 | WELD ELECTRODE FOR ATTRACTIVE WELD APPEARANCE - A welding electrode for use in resistance spot welding an assembly of overlying metal workpieces that includes an aluminum alloy workpiece is disclosed. The welding electrode includes a body, a convex weld face at one end of the body, and ringed protrusions that project outwardly from the convex weld face. The ringed protrusions are positioned to make contact with, and indent into, a surface of the aluminum alloy workpiece when the convex weld face is pressed against the aluminum alloy workpiece during a spot welding event. When brought into contact with the surface of the aluminum alloy workpiece, the ringed protrusions disrupt the oxide film present on the aluminum alloy workpiece surface, which improves the spot welding process. | 03-26-2015 |