Patent Number: 052805042
Section: claims

1. A nuclear, fuel cladding tube comprising a tubular member and a burnable-poison coating which has been applied to the inside surface of the tubular member by means of plasma arc spraying. 2. The nuclear fuel cladding tube of claim 1, wherein the tubular member comprises a zirconium alloy. 3. The nuclear fuel cladding tube of claim 2, wherein the burnable-poison coating is a boron-containing compound. 4. The nuclear fuel cladding tube of claim 3, wherein the boron-containing compound is a metal boride selected from the group consisting of Group 11a borides, transition-element borides and aluminum boride. 5. The nuclear fuel cladding tube of claim 4, wherein the metal boride is zirconium boride. 6. The nuclear fuel cladding tube of claim 3, where the boron-containing compound is a ceramic compound selected from the group consisting of elemental boron, boron carbide, boron nitride, and borosilicate glass. 7. The nuclear fuel cladding tube of claim 5, wherein the tubular member is about 3/8 inches in diameter and the burnable-poison coating ranges from about 0.00004 to about 0.001 inches in thickness. 8. The nuclear fuel cladding tube of claim 7, wherein the burnable-poison is about 0.0002 inches in thickness. 9. The nuclear fuel cladding tube of claim 3, wherein the boron-containing compound comprises isotopically purified boron-10. 10. The nuclear fuel cladding tube of claim 3, wherein the boron-containing compound is zirconium diboride comprising isotopically purified boron-10. 11. The nuclear fuel cladding tube of claim 10, wherein the tubular member is about 3/8 inches in diameter and the burnable-poison ranges from about 0.00008 to about 0.0002 inches in thickness. 12. The nuclear fuel cladding tube of claim 11, wherein the burnable poison is about 0.00004 inches in thickness. 13. A method for depositing a burnable-poison coating on an inner surface of a tubular member with an electrode spaced therefrom by a predetermined distance comprising the steps of: applying an electrical potential across an inert atmosphere between the electrode and the tubular member such that an electrical arc is established between the electrode and an inner surface of the tubular member;  entraining a burnable-poison-containing powder in the inert atmosphere;  providing the entrained powder in the vicinity of the arc;  rotating the electrode with respect to the tubular member while maintaining the predetermined distance; and  axially moving the electrode with respect to the tubular member while maintaining the predetermined distance.  an annular ceramic housing having an aperture;  an electrically conductive member disposed within the housing;  an electrode in electrical contact with the electrically conductive member, the electrode being disposed such that it projects into the aperture in the ceramic housing and extends outwardly to a first maximum radius which is less than a second maximum radius corresponding to the outermost radial extent of the plasma-arc spray-head device; and  means for supplying a gaseous composition to the vicinity of the electrode. 14. The method of claim 13, wherein the tubular member comprises a zirconium alloy. 15. The method of claim 14, wherein the burnable-poison-containing powder is selected from the group consisting of boron-containing ceramic and metal compounds. 16. The method of claim 14, wherein the burnable-poison-containing powder is a boron-containing ceramic compound selected from the group consisting of elemental boron, boron carbide, boron nitride, and borosilicate glass. 17. The method of claim 14, wherein the burnable-poison-containing powder is selected from the group consisting of ceramic and metal compounds containing isotopically enriched boron-10. 18. The method of claim 14, wherein the burnable-poison-containing powder is selected from the group consisting of Group 11a metal borides, transition-element borides and aluminum boride. 19. The method of claim 14, wherein the burnable-poison-containing powder is zirconium diboride. 20. The method of claim 13, wherein the inert atmosphere is selected from the group consisting of argon and helium. 21. A plasma-arc spray-head device for plasma-arc spraying a burnable-poison coating on the inside surface of a tubular member comprising: 22. The device of claim 21, further comprising means for axially and longitudinally moving the electrode with respect to the stationary tubular member. 23. The device of claim 21, wherein the electrode is a tungsten electrode. 24. The device of claim 21, wherein the electrically conductive member is a copper tube. 25. The device of claim 24, wherein the supplying means comprises the interior of the copper tube and apertures formed in the copper tube in the vicinity of the electrode.