A process for spot welding with addition of material to join metal sheets which comprises a process of spot welding that uses material deposited on one of the sheets with the welding interface between the areas of sheet to be joined, in order to avoid marks or indentation, with the surface cavities caused by the welding process, so that they are invisible after welding, surface treatment or painting; the process includes making the deposition of the material before welding on one of the sheets with any welding processes or also use of any additive manufacturing processes.

A method of joining together adjacent overlapping copper workpieces by way of resistance spot welding involves providing a workpiece stack-up that includes a first copper workpiece and a second copper workpiece that lies adjacent to the first copper workpiece. The faying surface of the first copper workpiece includes a projection that ascends beyond a surrounding base surface of the faying surface and makes contact, either directly or indirectly, with an opposed faying surface of the second copper workpiece. Once provided, a compressive force is applied against the first and second copper workpieces and an electric current is passed momentarily through the first and second copper workpieces. The electric current initially flows through the projection to generate and concentrate heat within the projection prior to the projection collapsing. This concentrated heat surge allows a metallurgical joint to be established between the first and second copper workpieces.

An electrode structure is provided in which an upper pin having a magnet is built in a cavity inside an upper electrode so as to be vertically movable to allow its front end portion to protrude downward, and a lower pin is arranged so as to face the upper pin and built in a cavity inside a lower electrode so as to be vertically movable to allow its front end portion to protrude upward. In a state where the front end portion of the upper pin protrudes downward, the weld nut inserted onto it is attracted and held by the magnet. In a state where the upper pin is pushed upward by the lower pin, the weld nut comes off the upper pin and drops due to a less attracting force by the magnet, and then fitted onto the lower pin at a position higher than a workpiece.

An electrode structure is provided in which an upper pin having a magnet is built in a cavity inside an upper electrode so as to be vertically movable to allow its front end portion to protrude downward, and a lower pin is arranged so as to face the upper pin and built in a cavity inside a lower electrode so as to be vertically movable to allow its front end portion to protrude upward. In a state where the front end portion of the upper pin protrudes downward, the weld nut inserted onto it is attracted and held by the magnet. In a state where the upper pin is pushed upward by the lower pin, the weld nut comes off the upper pin and drops due to a less attracting force by the magnet, and then fitted onto the lower pin at a position higher than a workpiece.

A system and method for joining components together by projection welding and brazing are disclosed. In one embodiment, the method makes use of one or more weld projections extending from a first component and one or more spacer projections extending from either or both of the components. The one or more weld projections are taller than the one or more spacer projections by a meltdown distance that permits projection welding of the first and second components and permits the one or more spacer projections to define a brazing gap between the first and second components after projection welding.

A method for the connection of components or component regions and a non-releasable connection produced in this manner. Two connection faces are partially welded to each other with an adhesive layer being incorporated between the two connection faces. The method including the following steps: arranging a welding base on a connection face, applying the adhesive layer to a connection face, moving the connection faces toward each other in such a manner that the welding base is applied against the other connection face, introducing welding current in the region of the applied welding base. A spacer is arranged between the connection faces before the connection faces are moved toward each other. The connection faces are spaced apart from each other in the region of the welding base by the extent that the welding base projects above the spacer.

A method for the connection of components or component regions and a non-releasable connection produced in this manner. Two connection faces are partially welded to each other with an adhesive layer being incorporated between the two connection faces. The method including the following steps: arranging a welding base on a connection face, applying the adhesive layer to a connection face, moving the connection faces toward each other in such a manner that the welding base is applied against the other connection face, introducing welding current in the region of the applied welding base. A spacer is arranged between the connection faces before the connection faces are moved toward each other. The connection faces are spaced apart from each other in the region of the welding base by the extent that the welding base projects above the spacer.

A method for monitoring a welding process with a weld monitoring computing system is provided. A weld monitoring system and a controller for a weld monitoring system are also provided.

A method for monitoring a welding process with a weld monitoring computing system is provided. A weld monitoring system and a controller for a weld monitoring system are also provided.

An example method for joining metals is described herein. The method can include forming an intermediate joint between a first structural member and a foil member, where the intermediate joint is formed using a solid state welding process. The method can also include forming a primary joint between the first structural member and a second structural member, where the primary joint is formed using a welding process that produces coalescence at a temperature above the melting point of the first structural member or the second structural member.