Patent Number: 060842431
Section: claims

1. A preassembled radioactive source holder assembly for radiation absorption gauging, comprising: a housing body having a cavity open through a first surface of the housing body;  at least one radioactive source in said cavity; and  a retainer for permanently retaining said at least one radioactive source in said cavity, wherein the level of radiation on the surfaces of said housing body normal to said first surface is less than about 0.5 milliRem per hour.  a first container body member adjacent to said first surface;  a second container body member adjacent a second surface of said housing body opposite from said first surface; and  a fastener for attaching the first container body member and the second container body member to said housing body, wherein the radiation level on the surfaces of said first and second container bodies is less than a predetermined amount.  a conduit through which said material may pass;  a preassembled radioactive source holder on one side of said conduit, comprising;  a housing body having a cavity open through a first surface of the housing body;  a first body member adjacent to said first surface;  a second body member adjacent a second surface of said housing opposite from said first surface; and  a fastener for attaching the first body member and the second body member to said housing;  wherein the radiation level on the outer surface of said housing body and said first and second body member is less than about 0.5 milliRem per hour.  at least one preassembled radioactive source holder comprising:  an end cap disposed adjacent to a second side of said housing body; and  a joiner for attaching said end cap to said housing body;  wherein, the radiation level on the surface of the end cap and on the surfaces of said housing body normal to said first surface is less than about 0.5 milliRem per hour.  providing a housing body having a cavity for receiving said radioactive source, said cavity being open through a first surface of the housing; and  permanently preassembling said radioactive source into said cavity;  whereby the level of radiation on the surfaces of said housing body normal to said first surface are less than about 0.5 milliRem per hour.  providing a first container body member adjacent to said first surface;  providing a second container body member adjacent a second surface of said housing body opposite from said first surface; and  providing a fastener for attaching the first container body member and the second container body member to said housing;  whereby the level of radiation on the surfaces of said first and second container bodies is less than a predetermined amount.  providing at least one radioactive source holder comprising:  providing an end cap disposed adjacent to a second side of said housing body; and  providing a joiner for attaching said end cap to said housing body;  whereby the level of radiation on the surfaces said end cap and seal housing normal to said first surface are less than about 0.5 milliRem per hour.  a housing body having a cavity open through a first surface of the housing body;  at least one radioactive source in said cavity; and  a retainer for permanently retaining said at least one radioactive source in said cavity, wherein the level of radiation on the surfaces of said housing body normal to said first surface is less than about 0.1 milliRem per hour.  a conduit through which said material may pass;  a preassembled radioactive source holder on one side of said conduit, comprising;  a detector disposed on the opposite side of the conduit from the radioactive source; and  a support assembly for supporting the radioactive source holder on one side of the conduit and for supporting the detector on the opposite side of the conduit;  wherein the radiation level outside said system is less than about 0.1 milliRem per hour.  a housing body having a cavity open through a first surface of the housing body;  a first body member adjacent to said first surface;  a second body member adjacent a second surface of said housing opposite from said first surface; and  a fastener for attaching the first body member and the second body member to said housing;  wherein the radiation level on the outer surface of said housing body and said first and second body member is less than about 0.1 milliRem per hour.  at least one preassembled radioactive source holder comprising:  an end cap disposed adjacent to a second side of said housing body; and  a joiner for attaching said end cap to said housing body;  wherein, the radiation level on the surface of the end cap and on the surfaces of said housing body normal to said first surface is less than about 0.1 milliRem per hour.  providing a housing body having a cavity for receiving said radioactive source, said cavity being open through a first surface of the housing; and  permanently preassembling said radioactive source into said cavity;  whereby the level of radiation on the surfaces of said housing body normal to said first surface are less than about 0.1 milliRem per hour.  providing at least one radioactive source holder comprising:  providing an end cap disposed adjacent to a second side of said housing body; and  providing ajoiner for attaching said end cap to said housing body;  whereby the level of radiation on the surfaces said end cap and seal housing normal to said first surface are less than about 0.1 milliRem per hour. 2. The assembly of claim 1 wherein said cavity extends through a second surface of said housing body opposite from said first surface. 3. The assembly of claim 1 wherein said housing body is cylindrical. 4. The assembly of claim 1 wherein said housing body comprises lead. 5. The assembly of claim 1 wherein said radioactive source comprises cesium-137. 6. The assembly of claim 1 wherein said radioactive source comprises a plurality of disk-shaped radiation generating members. 7. The assembly of claim 6 wherein said plurality of radiation generating members comprises cesium-137. 8. The assembly of claim 6 further comprising filler plugs disposed in said cavity on the opposite sides of said radioactive source. 9. The assembly of clainm 6 wherein the inner surface of said cavity is of approximately the same size as the outer surface of said radiation generating members. 10. The assembly of claim 1 wherein said retainer comprises epoxy. 11. The assembly of claim 1 wherein said retainer comprises mylar tape. 12. The assembly of claim 1 wherein said retainer comprises metal tape. 13. The assembly of claim 1 further comprising an end housing attached to said housing on the opposite side thereof from said first surface, wherein the radiation level on the surface of said end housing is less than a predetermined amount. 14. The assembly of claim 13 wherein said end housing and said housing body are unitary. 15. The assembly of claim 1 further comprising: 16. The assembly of claim 15 wherein said first and second container bodies comprise lead. 17. The assembly of claim 15 wherein said first container body member and said second container body member are cylindrical. 18. The assembly of claim 17 in which said housing is cylindrical and has a first outer diameter and the outer diameters of said first container body member and said second container body member are substantially the same as the first diameter. 19. The assembly of claim 15 wherein said housing body and said second container body are unitary. 20. A radiation absorption gauging system for gauging material, comprising: 21. A shipping container for a radioactive source, comprising: 22. The shipping container of claim 21 wherein said housing body and said second container body are unitary. 23. A radioactive source assembly comprising: 24. The radiation source assembly of claim 23 wherein said housing body and said end cap are unitary. 25. The radioactive source assembly of claim 23 further comprising a first support plate on the opposite side of said end cap from said at least one radiation source holder. 26. The radiation source assembly of claim 25 further comprising a second support plate on the opposite side of said at least one radioactive source holder from said first support plate. 27. The radiation source assembly of claim 26 further comprising an adapter plate on the opposite side of said second support plate from said at least one radioactive source. 28. The radiation source assembly of claim 23 further comprising a cover member which may be disposed in facing relationship to said first surface whereby the radiation level on the outer surfaces of said assembly is less than about 0.5 milliRem per hour. 29. A method of supporting a radioactive source, comprising: 30. The method of claim 29 further comprising: 31. The method of claim 30 wherein said housing body and said second container body are unitary. 32. A method of preparing a radioactive source for gauging a material, comprising: 33. A preassembled radioactive source holder assembly for radiation absorption gauging, comprising: 34. A radiation absorption gauging system for gauging material, comprising: 35. A shipping container for a radioactive source, comprising: 36. A radioactive source assembly comprising: 37. The radiation source assembly of claim 36 further comprising a cover member which may be disposed in facing relationship to said first surface whereby the radiation level on the outer surfaces of said assembly is less than about 0.1 milliRem per hour. 38. A method of supporting a radioactive source, comprising: 39. A method of preparing a radioactive source for gauging a material, comprising: