Patent Number: 054127017
Section: claims

1. A coated zirconium alloy nuclear fuel assembly comprising a zirconium alloy nuclear fuel assembly component in combination with a coating comprising: burnable poison particles in an amount effective to provide a predetermined level of neutron absorption;  optional graphite particles in an amount effective to provide abrasion resistance to said dried coating;  an alkali metal silicate binder in an amount effective to durably bind said burnable poison particles and said optional graphite particles within said coating;  an optional rheology-enhancing component in an amount effective to promote application of said coating to said component; and  a polar solvent in an amount effective to disperse said burnable poison particles, said optional graphite particles, said alkali metal silicate binder and said optional rheology-enhancing component.  a zirconium alloy nuclear fuel assembly component; and  a cured burnable poison containing coating disposed on said zirconium alloy nuclear fuel assembly component, said cured burnable poison containing coating further comprising: 2. The uncured burnable poison containing coating of claim 1, wherein said burnable poison particles are boron carbide particles having a naturally occurring distribution of boron-10 and boron-11. 3. The uncured burnable poison containing coating of claim 1, wherein said burnable poison particles are boron carbide particles which are enriched in boron-10. 4. The uncured burnable poison containing coating of claim 1, wherein said polar solvent is water. 5. The uncured burnable poison containing coating of claim 2, wherein said alkali metal silicate binder is potassium silicate. 6. The uncured burnable poison containing coating of claim 2, wherein said rheology-enhancing component is plate-like hectorite. 7. The uncured burnable poison containing coating of claim 2, wherein about 30 to about 50 parts of boron carbide are provided per 100 parts alkali metal silicate binder. 8. The uncured burnable poison containing coating of claim 2, wherein about 25 to about 50 parts of water are provided per 100 parts of alkali metal silicate binder. 9. The uncured burnable poison containing coating of claim 2, wherein about 434 to about 8 parts graphite are provided per each 100 parts of said alkali metal silicate binder. 10. The uncured burnable poison containing coating of claim 8, wherein about 0.5 to about 2 parts of rheology-enhancing component are provided per 100 parts of alkali metal silicate binder. 11. A coated nuclear fuel assembly component comprising: 12. The coated nuclear reactor fuel assembly component of claim 11, wherein said burnable poison is selected from erbium oxide, gadolinium oxide, boron nitride, titanium boride, and zirconium diboride. 13. The coated nuclear reactor fuel assembly component of claim 11, wherein said burnable poison is boron carbide. 14. The coated nuclear reactor fuel assembly component of claim 13, wherein said boron carbide particles have diameters ranging from about 1 to about 10 microns. 15. The coated nuclear reactor fuel assembly component of claim 11, wherein said alkali metal silicate binder is potassium silicate. 16. The coated nuclear reactor fuel assembly component of claim 11, wherein said graphite particles have diameters ranging from about 1 to about 10 microns. 17. The coated nuclear reactor fuel assembly component of claim 11, wherein about 4 to about 8 parts graphite are provided per 100 parts alkali metal silicate binder. 18. The coated nuclear reactor fuel assembly component of claim 13, wherein about 30 to 50 parts boron carbide are provided per 100 parts alkali metal silicate binder. 19. The coated nuclear reactor fuel assembly component of claim 11, wherein said zirconium alloy nuclear fuel assembly component is a fuel element cladding tube. 20. The coated nuclear reactor fuel assembly component of claim 19, wherein said zirconium alloy is selected from Zircaloy-2 and Zircaloy-4. 21. The coated nuclear reactor fuel assembly component of claim 19, wherein said coating is about 0.0015 inches in thickness. 22. The coated nuclear reactor fuel assembly component of claim 19, wherein said coating comprises about 16 mg of boron carbide having a naturally occurring distribution of boron-10 and boron-11 per square inch and said cladding tube has an inside diameter of about 0.4 inches.