Laser beam welding with a spiral weld path having a first order of continuity

The invention claimed is: 1. A method of laser welding a first component to a second component comprising: moving at least one of a laser beam and the components via a controller along a weld path, at least a portion of which is a spiral having a first order of continuity, thereby welding the first component to the second component; wherein the moving is via a controller; wherein a direction of the moving is from an inner end of the spiral to an outer end of the spiral; wherein the weld path further comprises a closed curve that surrounds the spiral and is continuous from the outer end of the spiral; and wherein the moving is along the closed curve after the spiral. 2. The method of claim 1 , wherein the closed curve is a circle. 3. The method of claim 1 , wherein the method includes: maintaining a first predetermined defocusing distance of the laser beam during the moving along the spiral; and continuously increasing the defocusing distance of the laser beam along the closed curve; wherein the continuously increasing defocusing distance increases from the first predetermined defocusing distance. 4. The method of claim 1 , further comprising: continuously increasing a velocity of the moving from the inner end of the spiral to the outer end of the spiral; and maintaining a predetermined constant velocity of the moving along the closed curve; wherein the predetermined constant velocity is the velocity at the outer end of the spiral. 5. The method of claim 1 , further comprising: maintaining a first predetermined constant power level of the laser beam during the moving along the spiral; and continuously decreasing the power level of the laser beam during the moving along the closed curve; wherein the continuously decreasing power level decreases from the first predetermined constant power level. 6. The method of claim 1 , further comprising: positioning a third component adjacent the first and the second components so that the second component is between the first and the third components; and wherein the laser beam welds the first, second, and third components to one another and the weld path is on an exposed surface of the first component. 7. The method of claim 6 , wherein the first, second, and third components are uncoated steel or zinc-coated steel. 8. The method of claim 1 , wherein the moving includes oscillating the laser beam. 9. The method of claim 1 , further comprising: maintaining at least one of a predetermined constant power level of the laser beam, a predetermined constant focus distance of the laser beam, and a predetermined constant velocity of the laser beam during the moving. 10. The method of claim 1 , wherein the first component and the second component are aluminum alloys. 11. The method of claim 1 , further comprising: controlling at least one of a defocusing distance of the laser beam, a velocity of the moving of the laser beam, or a power level of the laser beam during the moving to continuously increase, to continuously decrease, or to remain constant. 12. The method of claim 1 , wherein the spiral is an Archimedean spiral. 13. A method of laser welding a first component to a second component, wherein the first and second components are aluminum alloys, and the method comprising: moving a laser beam via a controller along a weld path on an outer surface of the first component; wherein at least a portion of the weld path is an Archimedean spiral; wherein a direction of the moving of the laser beam is from an outer end of the spiral to an inner end of the spiral; and maintaining a predetermined constant power level of the laser beam, a predetermined constant focus distance of the laser beam, and a predetermined constant velocity of the laser beam during the moving of the laser beam along the spiral, thereby welding the first component to the second component with the predetermined constant power level, the predetermined constant focus distance, and the predetermined constant velocity being selected to maintain a stable keyhole and a constant outgassing of gas pores in a weld pool during the welding. 14. The method of claim 13 , further comprising: oscillating the laser beam during the moving the laser beam along the weld path. 15. A method of laser welding a first component, a second component, and a third component to one another, wherein the first, the second, and the third components are steel, and the method comprising: moving a laser beam via a controller along a weld path on an outer surface of the first component; wherein at least a portion of the weld path is an Archimedean spiral and at least a portion of the weld path is a closed curve that surrounds the spiral and is continuous from an outer end of the spiral; wherein a direction of the moving of the laser beam is from an inner end of the spiral to the outer end of the spiral and then along the closed curve; maintaining a first predetermined constant power level of the laser beam during the moving of the laser beam from the inner end of the spiral to the outer end of the spiral; continuously increasing a velocity of the moving of the laser beam as the laser beam moves from the inner end of the spiral to the outer end of the spiral; continuously decreasing a power level of the laser beam along the closed curve; wherein the continuously decreasing power level decreases from the first predetermined constant power level; and maintaining a predetermined constant velocity of the moving of the laser beam as the laser beam moves along the closed curve; wherein the predetermined constant velocity is the velocity of the laser beam at the outer end of the spiral; thereby welding the first component to the second component with the first predetermined constant power level, the continuously decreasing power level, and the predetermined constant velocity being selected to maintain a stable keyhole and a constant outgassing of gas pores in a weld pool during the welding. 16. The method of claim 15 , further comprising: oscillating the laser beam during the moving the laser beam along the weld path.