Patent Number: 
Section: claims

1. A nuclear fuel assembly storage rack sleeve assembly for refurbishing a fuel rack having cells in which fresh or spent nuclear fuel assemblies may be stored, the cells defined by elongate rack walls extending from a rack base plate, the rack base plate having flow holes extending therethrough communicating with the cells, comprising: a sleeve having at least one elongate wall fixedly attached to a sleeve base plate, the sleeve base plate having a first side disposed above a second opposed side and defining a flow hole extending from the first side to the second opposed side, the elongate wall extending upwardly from the first side of the sleeve base plate; and  a pin assembly disposed in the sleeve base plate flow hole and hating at least one resilient tab, the resilient tab extending downwardly through the flow hole in the sleeve base plate and beyond the second opposed side of the sleeve base plate for extending into a rack base plate flow hole and resiliently engaging the rack base plate when the sleeve assembly is installed in one of the cells. 2. The sleeve assembly of  claim 1 , wherein the at least one resilient tab is one of a plurality of resilient tabs that extend beyond the second side of the sleeve base plate for resiliently engaging the rack base plate when the tabs extend into a rack base plate hole. claim 1 3. The sleeve assembly of  claim 1 , wherein the at least one tab has an intermediate section with a surface facing and substantially parallel to the second side of the sleeve base plate for engaging the rack base plate when the tab extends into the rack flow hole. claim 1 4. The sleeve assembly of  claim 3 , wherein the at least one tab has an end section which extends from the intermediate section at an acute angle. claim 3 5. The sleeve assembly of  claim 1 , wherein the at least one tab extends from a tubular portion of the pin assembly. claim 1 6. The sleeve assembly of  claim 5 , wherein the at least one tab has an intermediate section with a surface facing and substantially parallel to the second side of the sleeve base plate. claim 5 7. The sleeve assembly of  claim 6 , wherein the intermediate section of the at least one tab extends outwardly of the tubular portion of the pin assembly. claim 6 8. The sleeve assembly of  claim 7 , wherein the at least one tab has an end section which extends from the intermediate section at an acute angle inwardly of the tubular portion of the pin assembly. claim 7 9. The sleeve assembly of  claim 1 , wherein the pin assembly is of integral construction. claim 1 10. The sleeve assembly of  claim 1 , wherein the pin assembly is welded to the sleeve assembly base plate. claim 1 11. The sleeve assembly of  claim 1 , wherein the sleeve assembly comprises an extrusion comprised of boron carbide and aluminum. claim 1 12. The sleeve assembly of  claim 11 , wherein the sleeve base plate is comprised of boron carbide and aluminum. claim 11 13. The sleeve assembly of  claim 12 , wherein the sleeve base plate has at least one undercut keyway for receiving an installation tool. claim 12 14. The sleeve assembly of  claim 2 , wherein the plurality of resilient tabs are spaced apart and the spaces between adjacent resilient tabs extend above the second opposed side of the sleeve base plate. claim 2 15. The sleeve assembly of  claim 3  installed in a fuel rack cell defined by elongate walls extending above a fuel rack base plate, with the sleeve assembly base plate and the elongate walls of the fuel rack cell defining a clearance width wherein the tab intermediate section of the pin assembly is longer than the clearance width. claim 3 16. The sleeve assembly of  claim 15 , wherein the pin assembly has a plurality of spaced apart resilient tabs and each tab has an intermediate section that is longer than the clearance width defined by the sleeve assembly base plate and the elongate walls of the fuel rack cell. claim 15