Patent Number: 056087683
Section: claims

1. An end plug for a fuel rod of a nuclear reactor fuel bundle assembly including upper and lower tie plates, the end plug comprising: an upper portion constructed of a first alloy material and including an exterior fuel rod receiving surface and a rapped hole in a lower end thereof; and  a removable lower portion constructed of a second alloy material and including upper and lower threaded sections, said upper threaded section receivable within said tapped hole and said lower threaded section receivable within a correspondingly threaded hole in the lower tie plate.  an upper portion constructed of a first alloy material and including an exterior partial length fuel rod receiving surface and a tapped hole in a lower end thereof; and  a lower portion constructed of a second alloy material and including upper and lower threaded sections, said upper threaded section receivable within said tapped hole and said lower threaded section receivable within a tapped hole in the lower tie plate.  a) providing an end plug for a lower end of said at least one partial length fuel rod comprising an upper portion constructed of a first alloy material and including an exterior fuel rod receiving surface and a tapped hole in a lower end thereof; and a lower portion constructed of a second alloy material and including upper and lower threaded sections, said upper threaded section receivable within said tapped hole and said lower threaded section receivable within a correspondingly threaded hole in the lower tie plate;  b) rotating the fuel rod in a first direction to separate said fuel rod and the fuel rod end plug from the lower tie plate. 2. The end plug of claim 1 wherein said first alloy material is Zircaloy. 3. The end plug of claim 1 wherein said second alloy material is stainless steel. 4. The end plug of claim 2 wherein said second alloy material is stainless steel. 5. The end plug of claim 1 wherein said second material is harder than said first material. 6. The end plug of claim 1 wherein said upper and lower threaded sections are threaded in opposite directions. 7. In a fuel bundle assembly for a nuclear reactor having a plurality of fuel rods including a plurality of full length fuel rods extending between upper and lower tie plates and at least one partial length fuel rod extending between the lower tie plate and a spacer located between said upper and lower tie plates, the improvement comprising an end plug for at least said partial length fuel rod, said end plug secured between said partial length fuel rod and said lower tie plate, said end plug comprising: 8. The fuel bundle assembly of claim 7 wherein said first alloy material is Zircaloy. 9. The fuel bundle assembly of claim 7 wherein said second alloy material is stainless steel. 10. The fuel bundle assembly of claim 8 wherein said second alloy material is stainless steel. 11. The fuel bundle assembly of claim 7 wherein said second material is harder than said first material. 12. The fuel bundle assembly of claim 7 wherein said upper and lower threaded sections are threaded in opposite directions. 13. The fuel bundle assembly of claim 7 wherein respective ones of said end plugs are provided for said plurality of full length rods. 14. A method for removing a fuel rod from a fuel rod bundle assembly in a nuclear reactor, wherein the fuel rod bundle assembly includes a plurality of fuel rods including full length fuel rods extending between upper and lower tie plates and at least one partial length fuel rod extending upwardly from said lower tie plate, the method comprising the steps of: 15. The method of claim 14 wherein said upper and lower sections are threaded in opposite directions and wherein the method comprises an optional step of rotating the fuel rod in a second opposite direction to separate the fuel rod and the upper portion of the end plug from the lower portion of the end plug, leaving the latter in the lower tie plate. 16. The method of claim 14 wherein said first alloy material is Zircaloy. 17. The method of claim 14 wherein said second alloy material is stainless steel. 18. The method of claim 16 wherein said second alloy material is stainless steel. 19. The method of claim 14 wherein said second material is harder than said first material. 20. The method of claim 14 and including providing a respective one of said end plugs for each of said full length fuel rods.