Patent Number: 
Section: claims

1. A fuel spacer for use in a nuclear fuel assembly, the spacer comprising:a plurality of grid openings configured to receive a fuel rod through the spacer; anda perimeter band surrounding the grid openings and forming an outer boundary of the fuel spacer, wherein the perimeter band includes at least one specialized bathtub on an outer face of the perimeter band, and wherein the specialized bathtub includes an elastic resistive member and a corresponding rigid deflection limiter, wherein the rigid deflection limiter is stamped from the perimeter band such that the perimeter band does not overlap with the rigid deflection limiter in a transverse direction. 2. The fuel spacer of claim 1, wherein the elastic resistive member has a transverse length to contact a channel surrounding the nuclear fuel assembly, and wherein the corresponding rigid deflection limiter has a transverse length shorter than the transverse length of the elastic resistive member. 3. The fuel spacer of claim 2, wherein a difference between the transverse length of the elastic resistive member and the transverse length of the corresponding rigid deflection limiter is a length of a plastic deformation threshold of the elastic resistive member in the transverse direction so that the elastic resistive member cannot undergo plastic deformation due to a mutual planar contact to the deflection limiter. 4. The fuel spacer of claim 3, wherein the perimeter band includes a plurality of the specialized bathtubs on each outer face of the perimeter band. 5. The fuel spacer of claim 4, wherein each specialized bathtub includes the elastic resistive member with one of the corresponding rigid deflection limiters on both sides of the elastic resistive member. 6. The fuel spacer of claim 5, wherein the specialized bathtubs are formed from the perimeter band and have no internal material interruption between the perimeter band and the specialized bathtubs. 7. A nuclear fuel assembly comprising:a plurality of nuclear fuel rods;an outer channel surrounding the plurality of nuclear fuel rods; anda plurality of fuel spacers through which the nuclear fuel rods extend at various axial levels within the channel, wherein,the fuel spacers include an outer perimeter band, whereinthe outer perimeter band includes at least one specialized bathtub on an outer face of the perimeter band, wherein the specialized bathtub includes,an elastic resistive member extending to the outer channel, anda corresponding deflection limiter not extending to the outer channel, wherein the elastic resistive member moves elastically in a transverse direction, and wherein the corresponding deflection limiter is rigid in the transverse direction, wherein a difference between a transverse length of the elastic resistive member and a transverse length of the corresponding deflection limiter is a length of a plastic deformation threshold of the elastic resistive member so that the elastic resistive member cannot undergo plastic deformation due to contact between the outer channel and the deflection limiter. 8. The nuclear fuel assembly of claim 7, wherein the specialized bathtub is formed from the perimeter band and has no internal material interruption between the perimeter band and the specialized bathtub. 9. A fuel spacer for use in a nuclear fuel assembly, the spacer comprising:a plurality of grid openings configured to receive a fuel rod through the spacer; anda perimeter band surrounding the grid openings and forming an outer boundary of the fuel spacer, wherein the perimeter band includes at least one specialized bathtub on an outer face of the perimeter band, and wherein the specialized bathtub includes an elastic resistive member and a corresponding rigid deflection limiter, wherein the elastic resistive member is stamped from the perimeter band such that the perimeter band does not overlap with the elastic resistive member in a transverse direction. 10. The fuel spacer of claim 1, wherein the band does not extend between the elastic resistive member and the corresponding rigid deflection limiter. 11. The fuel spacer of claim 1, wherein the perimeter band is polygonal and includes three of the specialized bathtubs on each face, wherein each of the three specialized bathtubs includes a single elastic resistive member and only two of the corresponding rigid deflection limiters, and wherein the single elastic resistive member is between the only two corresponding rigid deflection limiters. 12. The fuel spacer of claim 1, further comprising:a plurality of flow tabs extending axially from the band, wherein the specialized bathtub is positioned entirely between two directly adjacent flow tabs of the plurality of flow tabs. 13. The fuel spacer of claim 1, further comprising:a plurality of flow tabs extending axially from the band, wherein the specialized bathtub is positioned directly below only a single flow tab of the plurality of flow tabs. 14. The fuel spacer of claim 1, wherein the elastic resistive member is stamped from the perimeter band such that the perimeter band does not overlap with the elastic resistive member in a transverse direction, wherein the rigid deflection limiter has a same thickness as the band, and wherein the elastic resistive member is thinner than the band. 15. The fuel spacer of claim 1, wherein the band is formed exclusively of a nickel alloy, and wherein the specialized bathtub is stamped from the band. 16. The fuel spacer of claim 1, wherein the perimeter band includes a plurality of the specialized bathtubs, wherein each of the plurality of specialized bathtubs includes a single elastic resistive member and only two of the corresponding rigid deflection limiters, wherein the elastic resistive member is between the two corresponding rigid deflection limiters, and wherein the band does not completely extend directly between the elastic resistive member and the two corresponding rigid deflection limiters. 17. The fuel spacer of claim 16, wherein each of the plurality of specialized bathtubs is stamped as a single-piece from the band.