Hot-wire consumable to provide self-lubricating weld or clad

The invention claimed is: 1. A hot-wire consumable, the consumable comprising: a base filler material, and at least one of self-lubricating particles having a nominal diameter in a range of 200 microns to 400 microns and self-lubricating powder having a nominal diameter in a range of 4 microns to 200 microns and said at least one of said self-lubricating particles and said self-lubricating powder is coated, wherein said coating comprises at least one of nickel and nickel alloy and has a thickness in a range of 1 to 30 microns. 2. The consumable of claim 1 , wherein said at least one of said self-lubricating particles and said self-lubricating powder represents a combined volume percentage in said consumable in the range of 5% to 50%. 3. The consumable of claim 1 , further comprising: a flux disposed over said base filler material to form an outer layer, said base filler material forming a solid core portion of said filler wire, wherein said at least one of said self-lubricating particles and said self-lubricating powder is mixed with said flux in said outer layer of said consumable. 4. The consumable of claim 1 , wherein said consumable is a solid-type wire, and wherein said at least one of said self-lubricating particles and said self-lubricating powder is mixed with said base material and said mixture is sintered to form said solid-type wire. 5. The consumable of claim 1 , wherein said consumable is a cored-type wire, said base material forming a sheath around a core, and wherein said core comprises said at least one of said self-lubricating particles and said self-lubricating powder. 6. The consumable of claim 5 , wherein said core comprises flux, and wherein said at least one of said self-lubricating particles and said self-lubricating powder is mixed with said flux in said core. 7. The consumable of claim 1 , wherein said consumable is a cored-type wire, said base material and a portion of said at least one of said self-lubricating particles and said self-lubricating powder forming a sheath around a core. 8. The consumable of claim 1 , wherein said core comprises flux, and wherein a remaining portion of said at least one of said self-lubricating particles and said self-lubricating powder is mixed with said flux in said core. 9. The consumable of claim 1 , wherein a melting temperature or a burning temperature of said at least one of said self-lubricating particles and said self-lubricating powder is higher than a melting temperature of said base filler material. 10. The consumable of claim 1 , wherein said consumable comprises both of said self-lubricating powder and said self-lubricating particles and a combined volume percentage of said self-lubricating powder and said self-lubricating particles in said consumable is in the range of 5% to 50%. 11. The consumable of claim 1 , where said at least one self-lubricating powder and said self-lubricating particles is graphite. 12. The consumable of claim 1 , where said at least one self-lubricating powder and said self-lubricating particles is at least one of graphite, copper, tin, and molybdenum disiulfide. 13. The consumable of claim 1 , where said at least one self-lubricating powder and said self-lubricating particles is a combination of at least two of graphite, copper, tin, and molybdenum disulfide. 14. The consumable of claim 1 , where said at least one self-lubricating powder and said self-lubricating particles is a combination of graphite and one of copper, tin, and molybdenum disulfide, and wherein said combined volume percentage of said consumable of said self-lubricating powder and said self-lubricating particles in said consumable is in the range of 5% to 50%. 15. The consumable of claim 1 , wherein said thickness of said coating is in a range of 5 to 30 microns. 16. The consumable of claim 1 , wherein the consumable comprises said self-lubricating particles having a nominal diameter in a range of 200 microns to 400 microns.