Method of Laser Welding Coated Steel Sheets with Addition of Alloying Elements

1 . A process for laser welding together sheet metal plates, the sheet metal plates being pre-coated with an aluminum-silicon containing layer, the process comprising: arranging the pre-coated sheet metal plates one relative to the other such that an edge of one of the plates is adjacent to and in contact with an edge of the other one of the plates; forming a laser weld joint along the adjacent edges of the pre-coated sheet metal plates, absent removing the aluminum-silicon containing layer from along said adjacent edges, such that aluminum from the aluminum-silicon containing layer enters a melt pool that is formed during forming the laser weld joint; and introducing an alloying material into the melt pool during forming the laser weld joint, wherein the alloying material and at least some of the aluminum that enters the melt pool from the aluminum-silicon layer forms a compound in the melt pool. 2 . The process of claim 1 , wherein introducing the alloying material into the melt pool comprises introducing a nickel containing alloying material into the melt pool. 3 . The process of claim 1 , wherein introducing the alloying material into the melt pool comprises introducing a nickel and chromium containing material into the melt pool. 4 . The process of claim 1 , comprising, prior to forming the laser weld joint and absent removing the aluminum-silicon containing layer from along said adjacent edges, forming a clad layer of the alloying material along the adjacent edges of the pre-coated sheet metal plates. 5 . The process of claim 4 , wherein forming the clad layer of the alloying material and forming the laser weld joint are performed absent transferring the pre-coated sheet metal plates from one work station to another. 6 . The process of claim 1 , comprising feeding the alloying material into the melt pool during forming the laser weld joint. 7 . The process of claim 6 , wherein feeding the alloying material comprises directing a flow of the alloying material in powdered form into the melt pool. 8 . The process of claim 1 , wherein the laser weld joint is a butt joint or a lap joint. 9 . (canceled) 10 . A process for laser welding together sheet metal plates, the sheet metal plates having a substrate that is pre-coated with an aluminum-silicon containing layer, the process comprising: arranging a first pre-coated sheet metal plate relative to a second pre-coated sheet metal plate, such that an edge of the first plate and an edge of the second plate are disposed adjacent to one another and define an interface between the first plate and the second plate; scanning a defocused laser beam along the interface between the first plate and the second plate, thereby irradiating the adjacent edges of the first and second plates; during scanning the defocused laser beam, directing a powdered alloying material toward the irradiated edges of the first and second plates, thereby forming a clad layer of the powdered alloying material onto the aluminum-silicon containing pre-coat layer; and subsequent to forming the clad layer, scanning a focused laser beam along the interface between the first plate and the second plate to form a laser weld joint therebetween, wherein the focused laser beam creates a melt pool comprising substrate material from the first and second plates, aluminum from the aluminum-silicon containing pre-coat layer, and alloying material from the clad layer; and wherein the alloying material forms a compound with at least some of the aluminum in the melt pool. 11 . The process of claim 10 , comprising using only one laser source for scanning both the defocussed laser beam and the focused laser beam. 12 . The process of claim 10 , wherein directing the powdered alloying material comprises directing a nickel containing alloying material. 13 . The process of claim 10 , wherein directing the powdered alloying material comprises directing a nickel and chromium containing alloying material. 14 . The process of claim 10 , wherein scanning the defocussed laser beam and scanning the focused laser beam are performed absent transferring the pre-coated sheet metal plates from one work station to another. 15 . The process of claim 10 , wherein the laser weld joint is a butt joint or a lap joint. 16 . (canceled) 17 . The process of claim 10 , wherein a thickness of the substrate material of the first plate is different than a thickness of the substrate material of the second plate. 18 . The process of claim 10 , wherein a thickness of the aluminum-silicon containing pre-coat layer of the first plate is different than a thickness of the aluminum-silicon containing pre-coat layer of the second plate. 19 . The process of claim 10 , wherein a composition of the substrate material of the first plate is different than a composition of the substrate material of the second plate. 20 . A process for laser welding together sheet metal plates, the sheet metal plates being pre-coated with an aluminum-silicon containing layer, the process comprising: arranging a first pre-coated sheet metal plate relative to a second pre-coated sheet metal plate, such that an edge of the first plate and an edge of the second plate are adjacent to one another and define an interface between the first plate and the second plate; and forming a laser weld joint, comprising: in a single pass, irradiating with a focused laser beam an area of each of the plates that is adjacent the interface, so as to form a melt pool that includes aluminum from the aluminum-silicon containing layer within the irradiated area of each plate; and during irradiating, introducing an alloying material into the melt pool, wherein the alloying material forms a compound with at least some of the aluminum in the melt pool. 21 . The process according to claim 20 , wherein introducing the alloying material into the melt pool comprises directing a flow of powdered alloying material into the melt pool via a powder delivery conduit. 22 . The process according to claim 20 , wherein the alloying material comprises nickel. 23 . The process according to claim 20 , wherein the alloying material comprises nickel and chromium. 24 . The process of claim 20 , wherein the laser welded joint is a butt joint or a lap joint. 25 . (canceled) 26 . A system for laser-welding together pre-coated sheet metal plates, comprising: a support for holding a first pre-coated sheet metal plate in a predetermined orientation relative to a second pre-coated sheet metal plate, such that an edge of the first plate and an edge of the second plate are disposed adjacent to one another and define an interface; at least one laser optic assembly in optical communication with a laser source; at least one actuator for relatively moving the at least one laser optic assembly relative to the support; and a powder delivery conduit in communication with a source of a powdered alloying material and having an outlet end disposed in front of the at least one laser optic along a scanning direction, the position of the outlet end of the powder delivery conduit being fixed relative to the at least one laser optic for directing a stream of the powdered alloying material toward a predetermined point along the interface during relatively moving the at least one laser optic assembly relative to the support. 27 - 28 . (canceled)