Coating process for applying a bifurcated coating

What is claimed is: 1 . A coating process for applying a bifurcated coating to an article, comprising: applying an aluminizing slurry to a first portion of the article; applying a chromizing slurry to a second portion of the article; and simultaneously heat treating the article, the aluminizing slurry, and the chromizing slurry, heat treating the aluminizing slurry forming an aluminide coating on the first portion of the article and an aluminide diffusion zone between the article and the aluminide coating, heat treating the chromizing slurry forming a chromide coating on the second portion of the article and a chromide diffusion zone between the article and the chromide coating, wherein the first portion and the second portion are both maintained in an unmasked state while applying the aluminizing slurry and the chromizing slurry and during the heat treating. 2 . The coating process of claim 1 , further including a pre-coating cleaning prior to applying either of the aluminizing slurry and the chromizing slurry. 3 . The coating process of claim 1 , further including masking a third portion of the article. 4 . The coating process of claim 1 , further including aging the aluminide coating, the aluminide diffusion zone, the chromide coating, and the chromide diffusion zone. 5 . The coating process of claim 1 , further including a post-coating cleaning after the heat treating. 6 . The coating process of claim 1 , wherein heat treating the article, the aluminizing slurry, and the chromizing slurry consists of a single furnace cycle. 7 . The coating process of claim 1 , wherein the article is a turbine component. 8 . The coating process of claim 7 , wherein the turbine component is selected from the group consisting of a hot gas path component, a bucket (blade), a nozzle (vane), a shroud, a combustor, a combustion component, and combinations thereof. 9 . The coating process of claim 8 , wherein the turbine component is a bucket (blade), the first portion is an airfoil, and the second portion is a shank. 10 . The coating process of claim 1 , wherein the first portion includes a plurality of isolated regions. 11 . The coating process of claim 1 , wherein the second portion includes a plurality of isolated regions. 12 . The coating process of claim 1 , wherein the chromizing slurry includes a donor powder, an inorganic salt having a melting point that is less than or equal to about 800° C., an activator powder, and a binder, the donor powder including chromium. 13 . The coating process of claim 1 , wherein the aluminizing slurry includes, by weight, about 35% to about 65% of a donor powder, about 1% to about 25% of an activator powder, and about 25% to about 60% of a binder, the donor powder including a metallic aluminum alloy having a melting temperature higher than aluminum, and the binder including at least one organic polymer gel. 14 . The coating process of claim 13 , wherein the donor powder includes a chromium-aluminum alloy. 15 . The coating process of claim 13 , wherein the donor powder has a particle size of up to 100 mesh. 16 . The coating process of claim 13 , wherein the activator powder is selected from the group consisting of ammonium chloride, ammonium fluoride, ammonium bromide, and combinations thereof. 17 . The coating process of claim 13 , wherein forming the aluminide coating includes forming the aluminide coating as an outward-type coating. 18 . The coating process of claim 1 , wherein heat treating the article, the aluminizing slurry, and the chromizing slurry includes a heat treating temperature within a range of about 1,750° F. to about 2,100° F. 19 . The coating process of claim 1 , wherein heat treating the article, the aluminizing slurry, and the chromizing slurry includes a duration of from about 2 hours to about 8 hours. 20 . The coating process of claim 1 , wherein applying the aluminizing slurry and the chromizing slurry includes a technique selected from the group consisting of high-velocity oxygen fuel, vacuum plasma spray, painting, and combinations thereof.