Patent Number: 051981823
Section: claims

1. The method of making a section of a neutron-absorbing tube, comprising the steps of a. forming an elongate, generally rectangular metal ingot having a hollow interior,  b. installing at least one elongate metal divider in said interior to form at least two chambers in said interior,  c. filling said chambers with a substantially uniformly dispersed mixture of a finely divided neutron-absorbing boron compound and a finely divided metal powder,  d. soaking the ingot to bring it to an elevated temperature below the melting temperature of the metal powder,  e. hot rolling the ingot to reduce its thickness to form a thin, rigid neutron-absorbing sheet having opposite metal edge portions and an elongated metal spacer portion at each metal divider, and  f. longitudinally bending the sheet at each spacer portion.  a. forming a pair of elongate, generally rectangular metal ingots having a hollow interior,  b. installing an elongate metal divider in the hollow interior of each ingot to form two chambers in the interior of each ingot,  c. filling said chambers with a substantially uniformly dispersed mixture of a finely divided neutron-absorbing boron compound and a finely divided metal powder,  d. soaking each ingot to bring it to an elevated temperature below the melting temperature of the metal powder,  e. hot rolling each ingot to reduce its thickness to form a thin, rigid neutron-absorbing sheet having opposite metal edge portions and an elongated metal spacer portion at each metal divider,  f. longitudinally bending each sheet at the spacer portion to an L-shaped cross section, and  g. joining the bent sheets at said metal edge portions to form a tube.  a. forming an elongate, generally rectangular metal ingot having a hollow interior,  b. installing a series of elongate metal dividers in said interior to form at least four chambers in said interior,  c. filling said chambers with a substantially uniformly dispersed mixture of a finely divided neutron-absorbing boron compound and a finely divided metal powder,  d. soaking the ingot to bring it to an elevated temperature below the melting temperature of the metal powder,  e. hot rolling the ingot to reduce its thickness to form a thin, rigid neutron-absorbing sheet having opposite metal edge portions and an elongated metal spacer portion at each metal divider,  f. longitudinally bending the sheet at each spacer portion, and  g. joining said metal edge portions to form a tube. 2. A method according to claim 1 in which method step "b" includes installing one metal divider and method step "f" includes longitudinally bending the sheet to an L-shaped cross section. 3. A method according to claim 2 including the step of making a second substantially identical section and joining said sections at said metal edge portions to form a tube. 4. A method according to claim 2 in which method step "f" further includes bending one of said metal edge portions to an L-shaped cross section. 5. A method according to claim 4 including the step of making a second substantially identical section and joining said sections at said metal edge portions to form a tube. 6. A neutron-absorbing tube made in accordance with the method of claim 1 in which the tube comprises a pair of sections each of which is bent to an L-shaped cross section at the metal spacer portion, said sections being welded at their edge portions to form a hollow tube. 7. The method of making a neutron-absorbing tube, comprising the steps of 8. A method according to claim 7 in which method step "f" includes the step of bending one of the metal edge portions of each sheet to an L-shaped cross section. 9. A method according to claim 8 in which method step "g" includes joining the bent edge portion of each sheet to the other edge portion of the other sheet. 10. A method according to claim 9 in which joining is by welding. 11. A method according to claim 9 in which method step "e" includes forming each sheet to have one metal edge portion of greater width than the other edge portion. 12. A method according to claim 11 in which method step "f" includes the step of bending the one metal edge portion of each sheet to an L-shaped cross section. 13. A method according to claim 12 in which method step "g" includes joining the bent edge portion of each sheet to the other edge portion of the other sheet. 14. A neutron-absorbing tube made in accordance with the method of claim 7 in which the tube comprises a pair of sheets each of which is bent to an L-shaped cross section at the metal spacer portion, said sheets being welded at their edge portions to form a hollow tube. 15. The method of making a neutron-absorbing tube, comprising the steps of 16. A method according to claim 15 in which method step "b" includes installing four metal dividers and method step "f" includes longitudinally bending the sheet to an L-shaped cross section at each metal spacer portion. 17. A method according to claim 16 in which method step "f" further includes bending one of said metal edge portions to an L-shaped cross section. 18. A method according to claim 17 in which method step "e" includes the step of forming one metal edge portion of greater width than the other edge portion. 19. A method according to claim 18 in which method step "f" includes the step of bending the one metal edge portion to an L-shaped cross section. 20. A method according to claim 19 in which method step "g" includes joining the bent edge portion to the other edge portion by welding.