Patent Number: 049903055
Section: claims

1. A method of producing finished tubing composed of a zirconium alloy and having a desired final outside diameter useful for nuclear fuel rod cladding including the steps of: a. processing tubing composed of a zirconium alloy and with an initial outside diameter to produce tubing having an intermediate outside diameter about 20% less than the desired final diameter of the finished tubing;  b. annealing said intermediate diameter processed tubing; and  c. finally expanding the intermediate diameter of the processed tubing about 20% of the desired tubing final outside diameter dimension, thereby producing a single peak radial texture in the finished tubing.  a. first expanding the initial diameter of the tubing to an intermediate diameter, said intermediate diameter being about 10 to 20% smaller than the desired final diameter of the finished tubing;  b. subjecting the expanded tubing to an anneal;  c. finally expanding the diameter of the annealed tubing about to 10 to 20% to the desired final diameter dimension; and  d. subjecting the desired final diameter tubing to a recrystallization anneal, thereby producing an enhanced radial texture in the finished tubing.  a. pilgering the tubing to a diameter within about 3 to 20% of the desired final diameter dimension;  b. annealing the pilgered tubing; and  c. hydraulically expanding the tubing about 3 to 20% to the desired final diameter, thereby increasing the radial texture of said tubing. 2. The tubing production method described in claim 1, wherein in step (a) said tubing is processed to an intermediate outside diameter about 10% less than the desired final diameter, and in step (c) said processed tubing is expanded about 10%. 3. The tubing production method described in claim 1, wherein in step (a) said tubing is processed to an intermediate outside diameter about 3% of the desired final diameter, and in step (c) said processed tubing is expanded about 3%. 4. The tubing production method described in claim 1, wherein in step (b) the tubing is subjected to a recrystallization anneal. 5. The tubing production method described in claim 1, wherein in step (b) the tubing is subjected to a stress-relief anneal. 6. The tubing production method described in claim 1, wherein the Kearns radial texture parameter is increased by a value of 0.02 to 0.06 by the final diameter expansion of step (c). 7. The tubing production method described in claim 1, further including the steps, prior to step (a), of first subjecting the tubing to an expansion of the tubing starting diameter and then subjecting the expanded tubing to a recrystallization anneal. 8. The tubing production method described in claim 1, wherein said zirconium alloy is selected from the group consisting of ZIRCALOY-2, ZIRCALOY-4 and ZIRLO. 9. A method of producing finished tubing composed of a zirconium ally and having a desired final diameter useful for nuclear fuel rod cladding including the steps of: 10. The tubing production method described in claim 9, wherein the finished tubing has an enhanced split radial texture. 11. The tubing production method described in claim 9, wherein the anneal of step (b) is a recrystallization anneal. 12. The tubing production method described in claim 9, wherein the anneal of step (b) is a stress relief anneal. 13. The tubing production method described in claim 9, wherein the zirconium alloy is selected from the group consisting of ZIRCALOY-2, ZIRCALOY-4 and ZIRLO. 14. A method of producing zirconium alloy tubing suitable for use in forming cladding for nuclear fuel rods including the steps of: 15. The tubing production method described in claim 14, further including the step of, after step (c), recrystallization annealing said finally expanded tubing. 16. The tubing production method described in claim 14, wherein in step (c) said tubing is hydraulically expanded about 10%. 17. The tubing producing method described in claim 14, wherein in step (c) said tubing is hydraulically expanded about 3%.