Case hardened component of titanium

The invention claimed is: 1. A method of producing a case hardened component of a titanium alloy, the method comprising the steps of: providing a component of a titanium alloy, placing the component in a reactive atmosphere comprising a carbon providing gaseous species at a partial pressure of at least 10 −5 bar, the carbon providing gaseous species containing carbon and oxygen, and which reactive atmosphere does not comprise a hydrogen containing species, heating the component in an inert atmosphere or the reactive atmosphere to a dissolution temperature T D of at least 800° C., maintaining the component in the reactive atmosphere at T D for a reactive duration of at least 30 min to provide the component with a diffusion zone comprising carbon and oxygen in solid solution and having a distinct phase of a carbo-oxide compound having the composition TiO x C 1-x , wherein x is a number in the range of 0.01 to 0.99, which diffusion zone has a microhardness of at least 800 HV 0.025 and which carbo-oxide compound has a microhardness of at least 1200 HV 0.025 , the diffusion zone having a thickness of at least 10 μm, cooling the component from T D to ambient temperature. 2. The method according to claim 1 , wherein the carbon providing gaseous species is CO or CO and CO 2 at a ratio of CO to CO 2 of at least 5. 3. The method according to claim 1 , wherein T D is at least 900° C. and wherein the partial pressure of the carbon providing gaseous species is at least 0.1 bar. 4. The method of producing a case hardened component according to claim 1 , wherein the reactive atmosphere further comprises a nitrogen containing species. 5. The method of producing a case hardened component according to claim 1 , wherein the method further comprises the steps of: placing the component in a nitriding atmosphere comprising a nitriding gaseous species at a partial pressure of at least 10 −5 bar, maintaining the component in the nitriding atmosphere at a nitriding temperature T N of at least 800° C. for a nitriding duration of at least 5 min to diffuse nitrogen into the component. 6. A method of oxidising a component of a Group IV metal, the method comprising the steps of: providing a component of a Group IV metal, placing the component in an oxidising atmosphere comprising an oxidising gaseous species selected from the list consisting of CO 2 , mixtures of CO and CO 2 , H 2 O and mixtures of H 2 O and H 2 , or mixtures thereof, wherein the oxidising gaseous species is selected to provide a partial pressure of O 2 of less than 0.1 bar, heating the component in an inert atmosphere or the oxidising atmosphere to an oxidising temperature T Ox of at least 600° C., maintaining the component in the oxidising atmosphere at T Ox for a reactive duration of at least 5 min to dissolve oxygen in the component, cooling the component from T Ox to ambient temperature. 7. The method of oxidising a component of a Group IV metal according to claim 6 , wherein the oxidising atmosphere does not comprise a reactive amount of a nitrogen containing species and/or wherein the oxidising atmosphere is not supplemented with O 2 . 8. The method of oxidising a component of a Group IV metal according to claim 6 , wherein the oxidising atmosphere consists of the oxidising gaseous species, or wherein the oxidising atmosphere consists of an inert gas and the oxidising gaseous species and the total pressure of the oxidising atmosphere is in the range of 0.5 bar to 5 bar. 9. The method of oxidising a component of a Group IV metal according to claim 6 , wherein the Group IV metal is selected from the list consisting of titanium, a titanium alloy, zirconium and a zirconium alloy. 10. The method of oxidising a component of a Group IV metal according to claim 6 , wherein a Magnéli phase is formed on the surface of the Group IV metal.