Patent Number: 
Section: claims

1. A grid strap for use with a nuclear fuel assembly spacer grid having a plurality of compartments, the grid strap comprising:a separate elongated strip member attached to the grid strap, the elongated strip member extending horizontally across the grid strap through a plurality of the compartments of the spacer grid; anda plurality of springs provided in the elongated strip member and being disposed in at least two or more of the compartments,wherein the grid strap is formed from a first zirconium alloy having a first growth rate when subjected to irradiation,wherein the separate elongated strip member and springs are made from a second zirconium alloy having a second growth rate when subjected to irradiation, andwherein the second growth rate of said second zirconium alloy is greater than the first growth rate of said first zirconium alloy. 2. The grid strap of claim 1, wherein the grid strap is annealed to reduce residual stresses. 3. The grid strap of claim 1, wherein the elongated strip member is attached to the grid strap by a method selected from the group consisting of welding, mechanical interference, and secondary forming in place. 4. The grid strap of claim 1, wherein the spring is subjected to cold work and rolling along its longitudinal axis. 5. The grid strap of claim 1, wherein the grid strap is designed to interlock with at least one other grid strap in order to form the nuclear fuel assembly spacer grid. 6. The grid strap of claim 1, wherein the grid strap includes a first end, a second end and a plurality of dimples; wherein a first dimple of the plurality of dimples is disposed proximate the first end and a second dimple is disposed proximate the second end; and wherein each of the springs is disposed between a corresponding pair of the first and second dimples. 7. A bi-alloy spacer grid for a nuclear fuel assembly having a plurality of fuel elements, the bi-alloy spacer grid comprising:a plurality of grid straps interlocking with respect to one another in a spaced, generally perpendicular configuration in order to form a number of compartments, each of the grid straps comprising:a separate elongated strip member attached to the grid strap, the elongated strip member extending horizontally across the grid strap through a plurality of the compartments of the spacer grid, anda plurality of springs provided in the elongated strip member and being disposed in at least two or more of the compartments,wherein the grid strap is formed from a first zirconium alloy having a first growth rate when subjected to irradiation,wherein the springs and the separate elongated strip member are formed from a second zirconium alloy having a second growth rate when subjected to irradiation,wherein the second growth rate of said second zirconium alloy is greater than the first growth rate of said first zirconium alloy, andwherein each spring is structured to engage and bias one of the nuclear fuel elements, in order that the fuel element is secured within the compartment formed by the intersecting grid straps. 8. The bi-alloy spacer grid of claim 7, wherein the grid straps are annealed to reduce most residual stresses. 9. The bi-alloy spacer grid of claim 7, wherein the elongated strip member is attached to each grid strap by a method selected from the group consisting of welding, mechanical interference, and secondary forming in place. 10. The bi-alloy spacer grid of claim 7, wherein the springs are subjected to cold work and rolling along their longitudinal axes. 11. The grid strap of claim 1, wherein each spring comprises a vertically elongated contact surface; wherein the elongated strip member includes a pair of opposing lateral protrusions extending outwardly from said vertically elongated contact surface; and wherein said lateral protrusions couple said spring to said grid strap. 12. The bi-alloy spacer grid of claim 7, wherein each of said elongated strip members is attached to and spans the lateral length of a corresponding one of said grid straps; and wherein, when said grid straps are interlocked with respect to one another, said elongated strip members are mechanically captured between adjacent interlocking grid straps. 13. The bi-alloy spacer grid of claim 12, wherein each of said elongated strip members is attached to a corresponding one of said grid straps at a different location; and wherein the elongated strip member and all of said springs of one grid strap are offset with respect to the elongated strip member and all of the springs of an adjacent grid strap. 14. The bi-alloy spacer grid of claim 7, wherein each spring comprises a vertically elongated contact surface; wherein the elongated strip member includes a pair of opposing lateral protrusions extending outwardly from said vertically elongated contact surface; and wherein said opposing lateral protrusions couple said spring to a corresponding one of said grid straps.