Weld shielding apparatus and method of use

What is claimed is: 1. A resistance weld shielding apparatus comprising: a fixture having a receptacle to receive and hold a part; an electrode to apply electrical energy to the part for welding the part while the part is held in the receptacle; a gas delivery system comprising a nozzle to direct an inert gas onto the part while the part is held in the receptacle, the nozzle directing the gas onto the part such that the gas shields the part from the ambient atmosphere when the part is being welded, the nozzle configured in the fixture such that the fixture holds the nozzle in a fixed physical relationship to the part; and the fixture including a first member and a second member, the first member having a slot formed in a first surface, the first member being positioned adjacent to the second member such that the slot and the second member define a channel in the fixture, the channel coupling the nozzle to a gas supply line coupling. 2. The resistance weld shielding apparatus of claim 1 , wherein the slot in the first surface and a second surface of the second member define the channel. 3. The resistance weld shielding apparatus of claim 1 , wherein the nozzle is one of multiple nozzles configured in the fixture, each of the nozzle directing the inert gas at different regions around the part. 4. The resistance weld shielding apparatus of claim 1 , wherein the electrode is configured to apply the electrical energy to the part so as to weld the part using a resistance welding technique. 5. The resistance weld shielding apparatus of claim 1 , wherein the fixture is configured for placement on a welding robot that controls the welding of the part, movement of the fixture, and delivery of the inert gas onto the part. 6. The resistance weld shielding apparatus of claim 1 , further comprising: a control circuit comprising at least one non-transitory memory for storing instructions that when executed by at least one processor, is executed to: control application of the electrical energy from the electrode to the part; and control direction of the inert gas onto the part. 7. The resistance weld shielding apparatus of claim 6 , wherein direction of the inert gas onto the part is controlled such that the inert gas is directed onto the part for a specified period of time before the electrical energy is applied to the parts. 8. The resistance weld shielding apparatus of claim 6 , wherein direction of the inert gas onto the part is controlled such that the inert gas is directed onto the part for a specified period of time after the electrode has finished applying the electrical energy to the part. 9. The resistance weld shielding apparatus of claim 6 , wherein direction of the inert gas onto the part is controlled such that a flowrate of the inert gas is adjusted according to one or more profile segments of a welding profile established for the part to be welded. 10. The resistance weld shielding apparatus of claim 9 , wherein the profile segments include at least one of a pre-weld profile segment, a welding profile segment, and a post-weld profile segment. 11. The resistance weld shielding apparatus of claim 9 , wherein the adjustment of the flowrate includes modifying the flowrate as the parts are being welded. 12. The resistance weld shielding apparatus of claim 9 , wherein the instructions are further executed to: obtain one of a plurality of welding profile records from the at least one memory, the part comprising a particular part and the fixture comprising a particular fixture adapted to receive and hold the particular part, the obtained welding profile record being associated with the particular fixture; and wherein direction of the inert gas onto the part is controlled such that the flowrate of the inert gas is adjusted according to the obtained welding profile.