Method of applying a thermal barrier coating to a metallic article and a thermal barrier coated metallic article

1 . A method of applying a thermal barrier coating to a metallic article comprising the steps of:— (a) ball nose milling the surface of the metallic article to produce a pattern in the surface of the metallic article and to produce a compressive residual stress in the surface and subsurface layers of the metallic article, the pattern comprising a plurality of pockets and a plurality of projections on the surface of the metallic article and/or a plurality of grooves and a plurality of ridges on the surface of the metallic article, (b) creating a thin adherent layer of oxide on the metallic article, and (c) applying a ceramic coating to the oxide layer on the surface of the metallic article such that the ceramic coating deposits on the surface of the metallic article in the pockets and on and around the projections and/or in the grooves and on the ridges, applying the ceramic coating as a plurality of columnar ceramic grains extending substantially perpendicularly away from the metallic article, the columnar ceramic grains extending from the oxide layer on the metallic article. 2 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 1 wherein step (b) comprises providing a bond coating on the metallic article and creating the thin adherent layer of oxide on the bond coating, and step (c) comprises applying the ceramic coating to the oxide layer on the surface of the bond coating. 3 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 2 wherein step (b) comprises depositing the bond coating by applying the bond coating by electroplating and then heat treating the bond coating. 4 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 2 wherein step (b) comprises applying a layer of platinum-group metal to the metallic article, heat treating the platinum-group-metal coated metallic article to diffuse the platinum-group metal into the metallic article to create a platinum-group metal enriched outer layer on the metallic article, and creating the thin adherent layer of oxide on the platinum-group metal enriched outer layer of the metallic article. 5 . A method of applying a thermal barrier coating to a metallic article as claimed in 4 wherein the metallic article comprises a superalloy substrate, the superalloy substrate comprises a gamma phase and gamma prime phase, the platinum-group metal enriched outer layer comprises a platinum-group metal enriched gamma phase and a platinum-group metal enriched gamma prime phase. 6 . A method as claimed in claim 4 wherein step (b) comprises aluminising the platinum-group metal enriched outer layer on the metallic article to form a platinum-group metal aluminide layer on the metallic article and creating the thin adherent layer of oxide on the platinum-group metal aluminide layer of the metallic article. 7 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 4 wherein the heat treatment is carried out at a temperature in the range of 1100° C. to 1200° C. dependent upon the solution heat treatment temperature appropriate for the superalloy article. 8 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 4 wherein the platinum-group metal comprises platinum. 9 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 8 wherein the thickness of the layer of platinum as applied before heat treatment being greater than 3 μm and less than 12.5 μm. 10 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 4 wherein the thin adherent layer of oxide is created by heating the platinum-group metal enriched outer layer in an oxygen containing atmosphere. 11 . A method as claimed in claim 2 wherein step (b) comprises enriching the metallic article with aluminium to form an aluminium enriched outer layer on the metallic article and creating the thin adherent layer of oxide on the aluminium enriched outer layer of the metallic article. 12 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 1 wherein the ceramic coating is applied by a method selected from the group consisting of electron beam physical vapour deposition and plasma spray physical vapour deposition. 13 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 12 wherein the thin adherent layer of oxide is created during the process of electron beam physical vapour deposition. 14 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 1 wherein the ceramic coating comprises yttria stabilised zirconia, yttria and erbia stabilised zirconia, yttria and gadolinia stabilised zirconia or yttria, erbia and gadolinia stabilised zirconia. 15 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 1 wherein the metallic article is selected from the group consisting of a nickel based superalloy, a cobalt based superalloy, a nickel based superalloy consisting of less than 1 ppm weight of sulphur and a cobalt based superalloy consisting of less than 1 ppm weight of sulphur. 16 . A method of applying a thermal barrier coating to a metallic article as claimed in claim 1 wherein the metallic article is selected from the group consisting of a turbine blade, a turbine vane, a turbine shroud, a combustion chamber tile and a combustion chamber wall. 17 . A method as claimed in claim 1 wherein step (a) produces a compressive residual stress of up to about 800 MPa at the surface of the metallic article. 18 . A method as claimed in claim 1 wherein step (a) produces a compressive residual stress of at least 500 MPa at depths less than 10 μm from the surface of the metallic article. 19 . A method as claimed in claim 1 wherein step (a) comprises providing part spherical shaped pockets in at least one region of the surface of the metallic article and providing grooves in at least one region of the surface of the metallic article. 20 . A method as claimed in claim 1 wherein step (a) comprises providing part spherical shaped pockets in at least one region of the surface of the metallic article and providing elongated pockets in at least one region of the surface of the metallic article. 21 . A method as claimed in claim 1 wherein step (a) comprise providing elongated pockets in at least one region of the surface of the metallic article with the pockets elongated in a first direction and providing elongated pockets in at least one region of the surface of the metallic article with the pockets elongated in a second direction different to the first direction. 22 . A method of applying a thermal barrier coating to a metallic article comprising the steps of:— (a) milling the surface of the metallic article to produce a pattern in the surface of the metallic article and to produce a compressive residual stress in the surface and subsurface layers of the metallic article, the pattern comprising a plurality of pockets and a plurality of projections on the surface of the metallic article and/or a plurality of grooves and a plurality of ridges on the surface of the metallic article, the milling being selected from the group consisting of ball nose milling and bull nose milling, (b) creating a thin adherent layer of oxide on the metallic article, and (c) applying a ceramic coating to the oxide layer on the surface of