Downhole tools with low dilution zone bearing cladding and cladding processes

1 . A bearing comprising: a substrate including a substrate metal; and cladding metallurgically fused to the substrate and including a low dilution zone, wherein the low dilution zone includes 5 % by proportion of atoms or less of the substrate metal. 2 . The bearing of claim 1 , further comprising: a roller cone assembly, wherein the substrate is located on a portion of the roller cone assembly that makes contact with a spindle or journal. 3 . The bearing of claim 1 , wherein the substrate is disposed on part of a spindle or journal of a support arm. 4 . The bearing of claim 1 , wherein the substrate metal is iron. 5 . The bearing of claim 1 , wherein the cladding comprises a Group VIII metal and an alloying element. 6 . The bearing of claim 5 , wherein the Group VII metal is selected from the group consisting of cobalt (Co), nickel (Ni), or iron (Fe), and any combinations thereof, and wherein the alloying element is selected from the group consisting of carbon (C), tungsten (W), molybdenum (Mo), chromium (Cr), tantalum (Ta), titanium (Ti), vanadium (V), niobium (Nb), boron (B), and any combinations thereof. 7 . The bearing of claim 5 , wherein the alloying element is present as a carbide. 8 . The bearing of claim 1 , wherein the cladding comprises layers. 9 . The bearing of claim 1 , wherein the cladding is between 0.010 inches and 0.040 inches thick. 10 . The bearing of claim 1 , wherein the low dilution zone is between 0.0005 inches and 0.010 inches thick. 11 . A roller cone drill bit comprising: a spindle or journal; a cone assembly disposed on the spindle or journal; and a bearing between the cone assembly and spindle or journal, the bearing including: a substrate comprising a substrate metal; and cladding metallurgically fused to the substrate and including a low dilution zone, wherein the low dilution zone includes 5 % by proportion of atoms or less of the substrate metal. 12 . The bit of claim 11 , wherein the substrate metal is iron. 13 . The bit of claim 11 , wherein the cladding comprises a Group VIII metal and an alloying element. 14 . The bit of claim 13 , wherein the Group VII metal is selected from the group consisting of cobalt (Co), nickel (Ni), or iron (Fe), and any combinations thereof, and wherein the alloying element is selected from the group consisting of carbon (C), tungsten (W), molybdenum (Mo), chromium (Cr), tantalum (Ta), titanium (Ti), vanadium (V), niobium (Nb), boron (B), and any combinations thereof. 15 . The bit of claim 13 , wherein the alloying element is present as a carbide. 16 . The bit of claim 11 , wherein the cladding comprises layers. 17 . The bit of claim 11 , wherein the cladding is between 0.010 inches and 0.040 inches thick. 18 . The bit of claim 11 , wherein the low dilution zone is between 0.0005 inches and 0.010 inches thick. 19 . A method of applying a cladding to a substrate, the method comprising: applying a cladding slurry to the substrate; and placing the cladding slurry in a furnace and metallurgically fusing the cladding slurry to the substrate at an elevated temperature and reduced pressure to produce cladding on the substrate. 20 . The method of claim 19 , further comprising: applying an additional cladding slurry to existing cladding; placing the additional cladding slurry in a furnace and metallurgically fusing the cladding slurry to the existing cladding at an elevated temperature and reduced pressure to produce additional cladding on the existing cladding; and repeating the steps until cladding of a desired thickness is obtained. 21 . The method of claim 19 , further comprising machining or grinding the cladding to a final thickness and desired surface finish.