A butt joint deep penetration laser welding method is used for joining facing end sections of flat steel products, each having a carbon content CS<0.02%. In order to improve such a method such that an improved weld quality in terms of geometry and strength is achievable with it, at least one carbon-containing carrier material is inserted into a butt joint gap between the end sections, the carbon content of which is C.sub.T≥20.Math.C.sub.S, preferably C.sub.T≥100.Math.C.sub.S, and/or carbon is inserted into the butt joint gap or applied to at least one end section, such that the volume of the carbon inserted into the butt joint gap corresponds to 1% to 20% of the volume of a melt produced by a butt joint deep penetration laser welding process.

A butt joint deep penetration laser welding method is used for joining facing end sections of flat steel products, each having a carbon content CS<0.02%. In order to improve such a method such that an improved weld quality in terms of geometry and strength is achievable with it, at least one carbon-containing carrier material is inserted into a butt joint gap between the end sections, the carbon content of which is C.sub.T≥20.Math.C.sub.S, preferably C.sub.T≥100.Math.C.sub.S, and/or carbon is inserted into the butt joint gap or applied to at least one end section, such that the volume of the carbon inserted into the butt joint gap corresponds to 1% to 20% of the volume of a melt produced by a butt joint deep penetration laser welding process.

In a method for welding using a wire-shaped filler and at least one laser beam, the wire-shaped filler is advanced in the direction of the surface of the workpiece by a wire feed mechanism. The wire-shaped filler is successively fused during the feed movement thereof. The wire-shaped filler and the material are connected to an electrical voltage source and form an electrical circuit. The electrical voltage, the electrical current and/or the electrical resistance are measured and used as control variables for the wire feed movement and/or the power of the at least one laser beam. Use of the laser beam is modified when a predefined threshold value of the electrical voltage and/or of the electrical current are fallen short of or a predefined threshold value of the electrical resistance is exceeded.

A first abutting surface, a first welding surface, a first facing surface are formed in a differential case. A second abutting surface, a second welding surface, and a second facing surface are formed in a differential ring gear. In an installing step, the first abutting surface and the second abutting surface are inserted, positions of the differential case and the differential ring gear are determined in an axial direction, a separation portion that spaces the first welding surface and the second welding surface away from each other and that has a non-linear portion is formed, and a void is formed between the first facing surface and the second facing surface. In a welding step, a laser is irradiated to the separation portion and the first welding surface and the second welding surface are welded.

A joined member is provided which includes: a first metal member, a second metal member opposed to the first metal member, and a joining portion through which the first metal member and the second metal member are joined together, in which an end face in a width direction of the first metal member is in contact with the joining portion, a portion of a surface of the second metal member on a side opposed to the first metal member is in contact with the joining portion, and a region of the surface of the second metal member on a side opposed to the first metal member which is not in contact with the joining portion is covered with zinc, and in the joining portion, zinc concentration in at least one end portion in the width direction is higher than zinc concentration in the center portion in the width direction.

A joined member is provided which includes: a first metal member, a second metal member opposed to the first metal member, and a joining portion through which the first metal member and the second metal member are joined together, in which an end face in a width direction of the first metal member is in contact with the joining portion, a portion of a surface of the second metal member on a side opposed to the first metal member is in contact with the joining portion, and a region of the surface of the second metal member on a side opposed to the first metal member which is not in contact with the joining portion is covered with zinc, and in the joining portion, zinc concentration in at least one end portion in the width direction is higher than zinc concentration in the center portion in the width direction.

Joining methods and corresponding structures are disclosed. In some instances, a method for joining two or more components may include generating a shockwave in a first component to form a jet of a material of the first component directed towards a second component. The jet may penetrate the second component to connect the first component with the second component. Articles of pre-joined and joined components are also described.

Joining methods and corresponding structures are disclosed. In some instances, a method for joining two or more components may include generating a shockwave in a first component to form a jet of a material of the first component directed towards a second component. The jet may penetrate the second component to connect the first component with the second component. Articles of pre-joined and joined components are also described.

Devices for laser welding using welding wire have a welding head, a wire guide for the welding wire, and a wire feed drive. The welding wire can be moved by the wire feed drive during a welding process with a feed movement in a feed direction, guided by the wire guide. A positioning device has a positioning drive, by which the welding wire is moved in an oscillating manner in the longitudinal direction of the welding wire, when a wire end of the welding wire is arranged in a welding readiness position. Methods for laser welding using a welding wire as added material are carried out using the devices. A control program controls the devices. The devices for laser welding can be provided as a part of a welding robot.

Devices for laser welding using welding wire have a welding head, a wire guide for the welding wire, and a wire feed drive. The welding wire can be moved by the wire feed drive during a welding process with a feed movement in a feed direction, guided by the wire guide. A positioning device has a positioning drive, by which the welding wire is moved in an oscillating manner in the longitudinal direction of the welding wire, when a wire end of the welding wire is arranged in a welding readiness position. Methods for laser welding using a welding wire as added material are carried out using the devices. A control program controls the devices. The devices for laser welding can be provided as a part of a welding robot.