Resistance spot welding workpiece stack-ups having a steel workpiece and an aluminum workpiece with a steel plate

What is claimed is: 1. A method of resistance spot welding a workpiece stack-up that comprises a steel workpiece and an aluminum workpiece, the method comprising: attaching a steel plate to the steel workpiece so that the steel plate is disposed over a weld-site of the workpiece stack-up; clamping a first welding electrode and a second welding electrode on the workpiece stack-up at the weld-site; passing electrical current between the first and second welding electrodes at the weld-site to create a molten aluminum weld pool within the aluminum workpiece that wets a faying surface of the steel workpiece; and terminating passage of electrical current between the first and second welding electrodes to allow the molten aluminum weld pool to solidify into a weld joint; wherein the steel plate stiffens the weld joint that bonds the steel and aluminum workpieces together, wherein the weld joint comprises a weld nugget and a central point of the weld nugget to a cross-wise extent that is at least 40% greater than a cross-wise extent measured from the central point of the weld nugget to an edge thereof. 2. The method set forth in claim 1 , wherein attaching the steel plate to the steel workpiece involves applying adhesive between the steel plate and the steel workpiece. 3. The method set forth in claim 1 , wherein attaching the steel plate to the steel workpiece involves resistance spot welding the steel plate to the steel workpiece. 4. The method set forth in claim 1 , wherein attaching the steel plate to the steel workpiece involves applying adhesive between the steel plate and the steel workpiece, subsequently performing the step of clamping the first and second welding electrodes on the workpiece stack-up and the steel plate at the weld-site, and then subsequently performing the step of passing electrical current between the first and second welding electrodes at the weld-site, wherein the electrical current passes through the applied adhesive between the steel plate and the steel workpiece. 5. The method set forth in claim 4 , further comprising curing the adhesive applied between the steel plate and the steel workpiece subsequent to the step of passing electrical current between the first and second welding electrodes at the weld-site. 6. The method set forth in claim 1 , wherein attaching the steel plate to the steel workpiece involves applying adhesive between the steel plate and the steel workpiece subsequent to the step of clamping the first and second welding electrodes on the workpiece stack-up at the weld-site and subsequent to the step of passing electrical current between the first and second welding electrodes at the weld-site. 7. The method set forth in claim 6 , further comprising curing the adhesive applied between the steel plate and the steel workpiece. 8. The method set forth in claim 6 , further comprising clamping the first and second welding electrodes on the workpiece stack-up and the steel plate with the adhesive applied between the steel plate and the steel workpiece, and passing electrical current between the first and second welding electrodes at the weld-site, wherein the electrical current passes through the applied adhesive between the steel plate and the steel workpiece. 9. The method set forth in claim 8 , further comprising curing the adhesive applied between the steel plate and the steel workpiece subsequent to the electrical current being passed through the applied adhesive between the steel plate and the steel workpiece. 10. The method set forth in claim 1 , wherein attaching the steel plate to the steel workpiece involves resistance spot welding the steel plate to the steel workpiece subsequent to the step of clamping the first and second welding electrodes on the workpiece stack-up at the weld-site and subsequent to the step of passing electrical current between the first and second welding electrodes at the weld-site. 11. The method set forth in claim 10 , further comprising clamping the first and second welding electrodes on the workpiece stack-up and the steel plate at the weld-site, and passing electrical current between the first and second welding electrodes at the weld-site in order to form a weld joint between the steel plate and the steel workpiece. 12. The method set forth in claim 1 , further comprising locating the steel plate adjacent a surface of the steel workpiece at the weld-site prior to the step of clamping the first and second welding electrodes, and subsequently performing the step of clamping the first and second welding electrodes on the workpiece stack-up and the steel plate at the weld-site, and then subsequently performing the step of passing electrical current between the first and second welding electrodes at the weld-site. 13. The method set forth in claim 12 , wherein a first weld joint between the steel workpiece and the aluminum workpiece is formed concurrently with the formation of a second weld joint formed between the steel plate and the steel workpiece. 14. The method set forth in claim 12 , wherein a first weld joint between the steel workpiece and the aluminum workpiece is formed prior to the formation of a second weld joint formed between the steel plate and the steel workpiece. 15. The method set forth in claim 12 , wherein a first weld joint between the steel workpiece and the aluminum workpiece is formed subsequent to the formation of a second weld joint formed between the steel plate and the steel workpiece. 16. The method set forth in claim 1 , wherein attaching the steel plate to the steel workpiece involves resistance spot welding the steel plate to the steel workpiece prior to the step of clamping the first and second welding electrodes, and prior to the step of passing electrical current between the first and second welding electrodes. 17. The method set forth in claim 16 , wherein the step of clamping the first and second welding electrodes includes clamping the first and second welding electrodes on the workpiece stack-up at the weld-site with the steel plate resistance spot welded to the steel workpiece. 18. The method set forth in claim 1 , wherein the steel plate is a unitary extension of the steel workpiece and the steel plate resides at a peripheral edge of the steel workpiece. 19. The method set forth in claim 1 , wherein the steel plate is a unitary extension of the steel workpiece and the steel plate resides at an interior site of the steel workpiece and inboard of a peripheral edge of the steel workpiece. 20. A method of resistance spot welding a workpiece stack-up that comprises a steel workpiece and an aluminum workpiece, the method comprising: attaching a steel plate to the steel workpiece so that the steel plate is disposed over a weld-site of the workpiece stack-up; passing electrical current between a first welding electrode and a second welding electrode at the weld-site to create a molten aluminum weld pool within the aluminum workpiece that wets a faying surface of the steel workpiece; and terminating passage of electrical current between the first and second welding electrodes to allow the molten aluminum weld pool to solidify into a weld joint; wherein the steel plate has an attachment to the steel workpiece solely at the weld-site and lacks attachment to the steel workpiece elsewhere, wherein the weld joint comprises a weld nugget and a central point of the weld nugget to a cross-wise extent that is at least 40% greater than a cross-wise extent measured from the central point of the weld nugget to an edge thereof.