Sinter bonded containment tube

What is claimed is: 1 . A containment tube comprising: a sintered tube comprising silicon carbide; a generally constant diameter along an axial length of the sintered tube; and a plug comprising silicon carbide, wherein the sintered tube is sealed. 2 . The containment tube of claim 1 , the sintered tube, the plug, or both comprise at least 70 wt % of silicon carbide. 3 . The containment tube of claim 2 , the sintered tube, the plug, or both comprise at least 90 wt % of silicon carbide. 4 . The containment tube of claim 1 , wherein the plug is sinter-bonded to the sintered tube. 5 . The containment tube of claim 1 , wherein the sintered tube has first and second ends and an inner bore extending along at least a portion of its axial length between the first and second ends, the first end having the plug residing in the inner bore to close the first end, and the second end having a distal wall that closes the inner bore at the second end. 6 . The containment tube of claim 1 , wherein the sintered tube contains a radioactive material. 7 . The containment tube of claim 1 , wherein the sintered tube has: a Shear Strength not less than about 25 MPa; or a Nitrogen Seal Performance of not greater than 10%; or a Helium Seal Performance of not greater than 10%; or a Vacuum Seal Performance of not greater than 10%; or any combination thereof. 8 . A containment tube comprising: a tube comprising silicon carbide and having a first end, a closed second end, and an inner bore extending between the first end and the second end; and a plug sinter-bonded to an inner wall proximate to the first end of the tube to close the first end. 9 . The containment tube of claim 8 , wherein the tube comprising silicon carbide is hermetically sealed. 10 . The containment tube of claim 8 , wherein the second end has a distal wall integrated to an outer wall of the tube comprising silicon carbide. 11 . The containment tube of claim 8 , wherein the tube comprising silicon carbide has a generally constant diameter along an axial length of the tube. 12 . The containment tube of claim 8 , wherein the tube comprises at least 70 wt % of silicon carbide. 13 . The containment tube of claim 8 , wherein the plug comprises at least 70 wt % of silicon carbide. 14 . A method of forming a containment tube comprising: providing a green ceramic tube having a first end that is unsealed and a second end that is sealed; partially sintering the green ceramic tube, leaving the first end unsintered or incompletely sintered; inserting a sintered plug into the first end; and sealing the first end by sintering the first end together with the sintered plug. 15 . The method of claim 14 , further comprising forming the green ceramic tube by extrusion. 16 . The method of claim 14 , wherein partially sintering comprises leaving the unsealed end incompletely sintered so that the first end of the tube is not shrunk to final dimensions. 17 . The method of claim 14 , wherein sealing the first end comprises applying localized heat to the first end. 18 . The method of claim 14 , further comprising placing a radioactive material into the partially sintered tube via the first end prior to inserting a sintered plug into the first end. 19 . The method of claim 14 , wherein the ceramic tube, the plug, or both comprises at least 70 wt % of silicon carbide. 20 . The method of claim 14 , further comprising removing surface contaminants from an inner circumferential surface of the first end of the tube, an outer circumferential surface of the plug, or both.