Alternately direct resistance spot welding of Al-to-Al, al-to-steel, and steel-to-steel with welding electrode having oxide-disrupting structural features
First Claim
1. A method of resistance spot welding workpiece stack-ups of different combinations of metal workpieces with a single weld gun using the same set of welding electrodes, the method comprising:
- providing a weld gun that carries a first welding electrode and an opposed second welding electrode, each of the first and second welding electrodes having a weld face that comprises an original shape and oxide-disrupting structural features, wherein the oxide-disrupting structural features are in the form of a series of upstanding circular ridges, a series of recessed circular grooves, or a microtexture;
positioning multiple vehicle body members relative to each other to provide a plurality of workpiece stack-ups, each of the workpiece stack-ups comprising a workpiece from one of the vehicle body members and an adjacent overlapping workpiece from at least one other of the vehicle body members and further having a first side and a second side to support pressed contact by the first welding electrode against the first side of the workpiece stack-up and pressed contact by the second welding electrode against the second side of the workpiece stack-up, wherein the plurality of workpiece stack-ups comprises a plurality of first workpiece stack-ups that include an aluminum workpiece and an adjacent overlapping steel workpiece, and wherein the plurality of workpiece stack-ups further comprises at least one of (i) a plurality of second workpiece stack-ups that include only overlapping aluminum workpieces or (ii) a plurality of third workpiece stack-ups that include only overlapping steel workpieces;
forming a set of aluminum-to-steel spot welds by progressing the weld gun to each of the plurality of first workpiece stack-ups and, at least once at each of the first workpiece stack-ups, pressing the first welding electrode directly against the first side of the first workpiece stack-up and pressing the second welding electrode directly against the second side of the first workpiece stack-up at a weld site and then passing an electrical current between the first and second welding electrodes and through the first workpiece stack-up to form an aluminum-to-steel spot weld that comprises a weld joint contained within the aluminum workpiece that weld bonds the aluminum workpiece to the adjacent steel workpiece;
forming at least one of (1) a set of aluminum-to-aluminum spot welds before forming the set of aluminum-to-steel spot welds or (2) forming a set of steel-to-steel spot welds after forming the set of aluminum-to-steel spot welds,wherein forming the set of aluminum-to-aluminum spot welds includes progressing the weld gun to each of the plurality of second workpiece stack-ups that includes only overlapping aluminum workpieces and, at least once at each of the second workpiece stack-ups, pressing the first welding electrode directly against the first side of the second workpiece stack-up and pressing the second welding electrode directly against the second side of the second workpiece stack-up at a weld site and then passing an electrical current between the first and second welding electrodes and through the second workpiece stack-up to form an aluminum-to-aluminum spot weld that comprises an aluminum nugget that fusion welds the aluminum workpieces together, andwherein forming the set of steel-to-steel spot welds includes progressing the weld gun to each of the plurality of third workpiece stack-ups that includes only overlapping steel workpieces and, at least once at each of the third workpiece stack-ups, pressing the first welding electrode directly against the first side of the third workpiece stack-up and pressing the second welding electrode directly against the second side of the third workpiece stack-up at a weld site and then passing an electrical current between the first and second welding electrodes and through the third workpiece stack-up to form a steel-to-steel spot weld that comprises a steel nugget that fusion welds the steel workpieces together; and
restoring each of the weld faces of the first and second welding electrodes to regenerate its original shape and oxide-disrupting structural features, wherein restoring each of the weld faces includes (i) inserting the weld face into a cutting socket of a cutting tool and rotating the cutting tool to shear away weld face material to reestablish the original shape of the weld face while fashioning a new series of upstanding circular ridges or a new series of recessed circular grooves or (ii) redressing the weld face by inserting the weld face into a cutting socket of a cutting tool and rotating the cutting tool to shear away weld face material to reestablish the original shape of the weld face followed by texturing the weld face with an abrasive media to establish a new microtexture of the weld face.
1 Assignment
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Accused Products
Abstract
A method of resistance spot welding workpiece stack-ups of different combinations of metal workpieces with a single weld gun using the same set of welding electrodes is disclosed. In this method, a set of opposed welding electrodes that include an original shape and oxide-disrupting structural features are used to resistance spot weld at least two of the following types of workpiece stack-ups in a particular sequence: (1) a workpiece stack-up of two or more aluminum workpieces; (2) a workpiece stack-up that includes an aluminum workpiece and an adjacent steel workpiece; and (3) a workpiece stack-up of two or more steel workpieces. The spot welding sequence calls for completing all of the aluminum-to-aluminum spot welds and/or all of the steel-to-steel spot welds last.
58 Citations
16 Claims
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1. A method of resistance spot welding workpiece stack-ups of different combinations of metal workpieces with a single weld gun using the same set of welding electrodes, the method comprising:
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providing a weld gun that carries a first welding electrode and an opposed second welding electrode, each of the first and second welding electrodes having a weld face that comprises an original shape and oxide-disrupting structural features, wherein the oxide-disrupting structural features are in the form of a series of upstanding circular ridges, a series of recessed circular grooves, or a microtexture; positioning multiple vehicle body members relative to each other to provide a plurality of workpiece stack-ups, each of the workpiece stack-ups comprising a workpiece from one of the vehicle body members and an adjacent overlapping workpiece from at least one other of the vehicle body members and further having a first side and a second side to support pressed contact by the first welding electrode against the first side of the workpiece stack-up and pressed contact by the second welding electrode against the second side of the workpiece stack-up, wherein the plurality of workpiece stack-ups comprises a plurality of first workpiece stack-ups that include an aluminum workpiece and an adjacent overlapping steel workpiece, and wherein the plurality of workpiece stack-ups further comprises at least one of (i) a plurality of second workpiece stack-ups that include only overlapping aluminum workpieces or (ii) a plurality of third workpiece stack-ups that include only overlapping steel workpieces; forming a set of aluminum-to-steel spot welds by progressing the weld gun to each of the plurality of first workpiece stack-ups and, at least once at each of the first workpiece stack-ups, pressing the first welding electrode directly against the first side of the first workpiece stack-up and pressing the second welding electrode directly against the second side of the first workpiece stack-up at a weld site and then passing an electrical current between the first and second welding electrodes and through the first workpiece stack-up to form an aluminum-to-steel spot weld that comprises a weld joint contained within the aluminum workpiece that weld bonds the aluminum workpiece to the adjacent steel workpiece; forming at least one of (1) a set of aluminum-to-aluminum spot welds before forming the set of aluminum-to-steel spot welds or (2) forming a set of steel-to-steel spot welds after forming the set of aluminum-to-steel spot welds, wherein forming the set of aluminum-to-aluminum spot welds includes progressing the weld gun to each of the plurality of second workpiece stack-ups that includes only overlapping aluminum workpieces and, at least once at each of the second workpiece stack-ups, pressing the first welding electrode directly against the first side of the second workpiece stack-up and pressing the second welding electrode directly against the second side of the second workpiece stack-up at a weld site and then passing an electrical current between the first and second welding electrodes and through the second workpiece stack-up to form an aluminum-to-aluminum spot weld that comprises an aluminum nugget that fusion welds the aluminum workpieces together, and wherein forming the set of steel-to-steel spot welds includes progressing the weld gun to each of the plurality of third workpiece stack-ups that includes only overlapping steel workpieces and, at least once at each of the third workpiece stack-ups, pressing the first welding electrode directly against the first side of the third workpiece stack-up and pressing the second welding electrode directly against the second side of the third workpiece stack-up at a weld site and then passing an electrical current between the first and second welding electrodes and through the third workpiece stack-up to form a steel-to-steel spot weld that comprises a steel nugget that fusion welds the steel workpieces together; and restoring each of the weld faces of the first and second welding electrodes to regenerate its original shape and oxide-disrupting structural features, wherein restoring each of the weld faces includes (i) inserting the weld face into a cutting socket of a cutting tool and rotating the cutting tool to shear away weld face material to reestablish the original shape of the weld face while fashioning a new series of upstanding circular ridges or a new series of recessed circular grooves or (ii) redressing the weld face by inserting the weld face into a cutting socket of a cutting tool and rotating the cutting tool to shear away weld face material to reestablish the original shape of the weld face followed by texturing the weld face with an abrasive media to establish a new microtexture of the weld face. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of resistance spot welding workpiece stack-ups of different combinations of metal workpieces with a single weld gun using the same set of welding electrodes, the method comprising:
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providing a weld gun that carries a first welding electrode and an opposed second welding electrode, each of the first and second welding electrodes having a weld face that comprises an original shape and oxide-disrupting structural features, wherein the oxide-disrupting structural features are in the form of a series of upstanding circular ridges, a series of recessed circular grooves, or a microtexture; supporting a fixture of multiple vehicle body members of a vehicle body-in-white relative to each other to provide a plurality of workpiece stack-ups, each of the workpiece stack-ups comprising a workpiece from one of the vehicle body members and an adjacent overlapping workpiece from at least one other of the vehicle body members and further having a first side and a second side to support pressed contact by the first welding electrode against the first side of the workpiece stack-up and pressed contact by the second welding electrode against the second side of the workpiece stack-up, wherein the plurality of workpiece stack-ups comprises (i) at least one first workpiece stack-up that includes an aluminum workpiece and an adjacent overlapping steel workpiece, (ii) at least one second workpiece stack-up that includes only overlapping aluminum workpieces, and (iii) at least one third workpiece stack-up that includes only overlapping steel workpieces; progressing the weld gun through the fixture of vehicle body members to form one or more spot welds in each of the plurality of workpiece stack-ups to support securing the multiple vehicle body members together into the vehicle body-in-white, the weld gun progressing through the fixture of vehicle body members to form, in sequential order, a set of aluminum-to-aluminum spot welds, a set of aluminum-to-steel spot welds, and a set of steel to steel spot welds; and restoring each of the weld faces of the first and second welding electrodes to regenerate its original shape and oxide-disrupting structural features, wherein restoring each of the weld faces includes (i) inserting the weld face into a cutting socket of a cutting tool and rotating the cutting tool to shear away weld face material to reestablish the original shape of the weld face while fashioning a new series of upstanding circular ridges or a new series of recessed circular grooves or (ii) redressing the weld face by inserting the weld face into a cutting socket of a cutting tool and rotating the cutting tool to shear away weld face material to reestablish the original shape of the weld face followed by texturing the weld face with an abrasive media to establish a new microtexture of the weld face, wherein forming the set of aluminum-to-aluminum spot welds comprises, at least once at each of the second workpiece stack-ups that includes only aluminum workpieces, pressing the first welding electrode directly against the first side of the second workpiece stack-up while pressing the second welding electrode directly against the second side of the second workpiece stack-up at a weld site and then passing an electrical current between the first and second welding electrodes and through the second workpiece stack-up to form an aluminum-to-aluminum spot weld that comprises an aluminum nugget that fusion welds the aluminum workpieces together; wherein forming the set of aluminum-to-steel spot welds comprises, at least once at each of the first workpiece stack-ups that includes an aluminum workpiece and an adjacent overlapping steel workpiece, pressing the first welding electrode directly against the first side of the first workpiece stack-up and pressing the second welding electrode directly against the second side of the first workpiece stack-up at a weld site and then passing an electrical current between the first and second welding electrodes and through the first workpiece stack-up to form an aluminum-to-steel spot weld that comprises a weld joint contained within the aluminum workpiece that weld bonds the aluminum workpiece to the adjacent steel workpiece; wherein forming the set of steel-to-steel spot welds comprises, at least once at each of the third workpiece stack-ups that includes only steel workpieces, pressing the first welding electrode directly against the first side of the third workpiece stack-up and pressing the second welding electrode directly against the second side of the third workpiece stack-up at a weld site and then passing an electrical current between the first and second welding electrodes and through the third workpiece stack-up to form a steel-to-steel spot weld that comprises a steel nugget that fusion welds the steel workpieces together. - View Dependent Claims (11, 12, 13, 14)
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15. A method of resistance spot welding workpiece stack-ups of different combinations of metal workpieces with a single weld gun using the same set of welding electrodes, the method comprising:
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providing a weld gun that carries a first welding electrode and an opposed second welding electrode, each of the first and second welding electrodes having a weld face that comprises an original shape and oxide-disrupting structural features, wherein the oxide-disrupting structural features are in the form of a series of upstanding circular ridges, a series of recessed circular grooves, or a microtexture; supporting a fixture of multiple vehicle body members of a vehicle body-in-white relative to each other to provide a plurality of workpiece stack-ups, each of the workpiece stack-ups comprising a workpiece from one of the vehicle body members and an adjacent overlapping workpiece from at least one other of the vehicle body members and further having a first side and a second side, wherein the plurality of workpiece stack-ups comprises at least one workpiece stack-up that includes an aluminum workpiece and an adjacent overlapping steel workpiece; progressing the weld gun through the fixture of multiple vehicle body members to form one or more spot welds in each of the plurality of workpiece stack-ups to support securing the multiple vehicle body members together into the vehicle body-in-white, the weld gun progressing through the fixture of vehicle body members to form a set of aluminum-to-steel spot welds in the at least one workpiece stack-up that includes an aluminum workpiece and an overlapping adjacent steel workpiece as well as at least one of (i) a set of aluminum-to-aluminum spot welds in at least one workpiece stack-up that includes only overlapping aluminum workpieces or (ii) a set of steel-to-steel spot welds in at least one workpiece stack-up that includes only overlapping steel workpieces; and restoring each of the weld faces of the first and second welding electrodes to regenerate its original shape and oxide-disrupting structural features after progressing the weld gun through the fixture of multiple vehicle body members to form one or more spot welds in each of the plurality of workpiece stack-ups, wherein restoring each of the weld faces includes (i) inserting the weld face into a cutting socket of a cutting tool and rotating the cutting tool to shear away weld face material to reestablish the original shape of the weld face while fashioning a new series of upstanding circular ridges or a new series of recessed circular grooves or (ii) redressing the weld face by inserting the weld face into a cutting socket of a cutting tool and rotating the cutting tool to shear away weld face material to reestablish the original shape of the weld face followed by texturing the weld face with an abrasive media to establish a new microtexture of the weld face. - View Dependent Claims (16)
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Specification